Course: S6: Fundamental of Nursing , Topic: UNIT1:HUMAN NUTRITION AND DIETETICS

General

UNIT1:HUMAN NUTRITION AND DIETETICS

Key Unit Competence
Assist adequately in preparation of a balanced diet to community, family and
individuals.
Introductory activity 1.1
Observe the Pictures below (A, B, C, D and F) and answer the questions that
follow:

1. What do the above-mentioned pictures (A, B, C, D, E, and F) communicate
to you?
2. Differentiate the pictures A& B, from the picture E
3. What do you think is the importance of each activity that is being done by
the persons in pictures C, D, and F?
4. According to you, what do you think is the focus of this topic?
1.1. Breast feeding
Learning activity 1.1
Observe the following pictures and respond to questions provided below:

1. Describe the activities the pictures above pointed out.
2. Discuss the importance of the ongoing activities in the pictures above
(A,B ).
3. What do you expect to learn in this lesson?
4. Use the fundamentals of nursing and nutrition text books taken from the
library or internet and find out the advantages of breast feeding for mother
and baby, teaching points for breast feeding and contra-indications of
breast feeding
1.1.1. Introduction to breast feeding
The breast feeding consists of giving mother’s milk to a newborn, infant, or child.
Mature mother’s milk and its precursor, colostrum, are considered the most
balanced foods available for normal newborns and infants. Breastfeeding should be
initiated immediately after the birth of your child. Breast milk is specifically designed
to support optimal growth and development of the newborn, and its composition
makes it uniquely superior for infant feeding.
Exclusive breastfeeding is recommended for the first 6 months of life and should be
maintained until weaning is initiated (there are some exceptions: for example, Oral
iron drops may be needed before 6 months to support iron stores). Breast feeding
is considered adequate to meet the needs of healthy, full-term infants. Even after
solid foods are introduced, breastfeeding should continue for at least the first 12
months of age.
1.1.2. Advantages of breastfeeding for the baby
For the first 2-4 days of a baby’s life, breasts will secrete colostrum, a yellowish
fluid rich in proteins. These valuable proteins are essential to the development of a
healthy immune system. The protein is easily digested and absorbed by the body,
especially by the rapidly developing brain. Colostrum provides factors that promote
maturation of the gut and good digestion. Colostrum is the most superior and well
designed nutrition for your baby in the first few days of life.
Breast milk provides superior nutrition to the baby and increases resistance to
infections, and therefore fewer incidents of illness and hospitalization. It decreases
the risk of lactose intolerance. Breast milk is sterile and easily digested. Breastfed
babies experience less nappy rash, they are less likely to develop allergies and
experience fewer constipation. Breastfed infants tend to have fewer cavities.
Breastfeeding promotes the proper development of baby’s jaw and teeth.
Breastfed infants tend to have higher intellectual quotients (IQs) due to good brain
development early in life. They benefit emotionally, because they are held more.
Breastfeeding promotes mother-baby bonding. In the long term, breastfed babies
have a decreased risk of malnutrition, obesity and heart disease compared to
formula fed babies.
Breastfeeding is credited with numerous potential health benefits for the infant,
including lower risks of otitis media, upper respiratory tract infection, lower
respiratory tract infection, asthma, atopic dermatitis, gastroenteritis, obesity, celiac
disease, type 1 and type 2 diabetes, certain types of leukemia, and sudden infant
death syndrome. Although many of these benefits are linked to breast feeding for 3
months or more, some benefits occur with any duration of breastfeeding, such as
the reduced risk of obesity and type 2 diabetes.
1.1.3. Advantages of breastfeeding for the mother
The baby’s sucking causes a mother’s uterus to contract and reduces the flow
of blood after delivery. During lactation, menstruation ceases, offering a form of
contraception. Mothers who breastfeed tend to lose weight and achieve their
pre-pregnancy figure more easily than mothers who bottle feed. Mothers who
breastfeed, are less likely to develop breast cancer later in life. Breastfeeding is
more economical than formula feeding. There are fewer trips to the doctor and less
money is spent on medications. Breastfeeding promotes mother-baby bonding.
Hormones released during breast-feeding create feelings of warmth and calm in
the mother.
1.1.4. Teaching points for breastfeeding
The infant should be allowed to be nursed for 5 minutes on each breast on the first
day to achieve letdown and milk ejection.
By the end of the first week, the infant should be nursed up to 15 minutes per breast.
In the first few weeks of breastfeeding, the infant may be nursed 8 to 12 times
every 24 hours. Mothers should offer the breast whenever the infant shows early
signs of hunger, such as increased alertness, physical activity, mouthing, or rooting.
After breastfeeding is well established, eight feedings every 24 hours may be
appropriate. The first breast offered should be alternated with every feeding so
both breasts receive equal stimulation and draining. Even though the infant will
be able to virtually empty the breast within 5 to 10 minutes once the milk supply
is established, the infant needs to nurse beyond that point to satisfy the need to
suck and to receive emotional and physical comfort. The supply of milk is equal to
the demand the more the infant sucks, the more milk is produced. Infants age 6
weeks or 12 weeks who suck more are probably experiencing a growth spurt and
so need more milk. Water and juice are unnecessary for breastfed infants in the first
6 months of life, even in hot climates. Early substitution of formula or introduction
of solid foods may decrease the chance of maintaining lactation. Infants weaned
before 12 months of age should be given iron-fortified formula, not cow’s milk.
Both feeding the infant, more frequently and manually expressing milk will help to
increase the milk supply. Breast milk can be pumped, placed in a sanitary bottle,
and immediately refrigerated or frozen for later use. Milk should be used within 24
hours if refrigerated or within 3 months if stored in the freezer compartment of the
refrigerator.
1.1.5. Breast feeding technique
The breast feeding technique has 3 main parts: effective positioning for the mother,
effective positioning for the baby, attaching the baby to the breast.
a. Effective positioning for the mother
A comfortable position is a prerequisite of comfortable breastfeeding. A woman who
has recently given birth, especially one new to breastfeeding, may need some help
with this. After a caesarean section, or where the perineum is very painful, lying on
her side may be the only position a woman can tolerate in the first few days after
birth. It is likely that she will need assistance in placing the baby at the breast in this
position, because she has only one free hand. When feeding from the lower breast
it may be helpful to raise her body slightly by tucking the end of a pillow under her
ribs. Once the woman can do this unaided, she may find this a comfortable and
convenient position for night feeds, enabling her to get more sleep. Alternatively,
the mother may prefer to sit up to feed her baby, it is particularly important that the
mother’s back is upright at a right-angle to her lap.
Both (arms) lying on her side and sitting correctly in a chair with her back and
feet supported enhance the shape of the breast and allow ample room in which to
manoeuvre the baby.
b. Effective positioning for the baby
The baby’s body should be turned towards the mother’s body so that the baby is
coming up to her breast at the same angle as her breast is coming down to the
baby. The more the mother’s breast points down, the more the baby needs to be on
his back. The advice to have the baby tummy to tummy may be mistakenly taken
to imply that the baby should always be lying on his side. However, taking account
of the angle of the dangle might be more useful. If the baby’s nose is opposite his
mother’s nipple, being brought to the breast with the neck slightly extended, the
baby’s mouth will be in the correct relationship to the nipple.
c. Attaching the baby to the breast
The baby should be supported across the shoulders, so that slight extension of
the neck can be maintained. The baby’s head may be supported by the extended
fingers of the mother’s supporting hand or on the mother’s forearm. It may be
helpful to wrap the baby in a small sheet (Vancouver wrap), so that his hands are
by his side. If the newborn baby’s mouth is moved gently against the mother’s
nipple, the baby will open his mouth wide. As the baby drops his lower jaw and
darts his tongue down and forward, he should be moved quickly to the breast. The
intention of the mother should be to aim the baby’s bottom lip as far away from the
base of the nipple as is possible. This allows the baby to draw breast tissue as well
as the nipple into his mouth with his tongue. If correctly attached, the baby will have
formed a teat from the breast and the nipple.
The nipple should extend almost as far as the junction of the hard and soft palate.
Contact with the hard palate triggers the sucking reflex. The baby’s lower jaw
moves up and down, following the action of the tongue. Although the mother may
be startled by the physical sensation, she should not experience pain. If the baby
is well attached, minimal suction is required to hold the teat within the oral cavity.
The tongue can then apply rhythmical cycles of compression and relaxation so that
milk is removed from the ducts. The baby feeds from the breast rather than from the
nipple, and the mother should guide her baby towards her breast without distorting
its shape. The baby’s neck should be slightly extended and the chin in contact with
the breast. If the baby approaches the breast, a generous portion of areola will be
taken in by the lower jaw, but it is positively unhelpful to urge the mother to try to get
the whole of the areola in the baby’s mouth.
Notes
Many mothers who have had babies before require as much support with
breastfeeding as those who have given birth to their first baby
Reasons for this include:
• Previous unsuccessful breastfeeding.
• Breastfeeding may have gone well last time by chance rather than knowledge.
• The new baby may behave very differently, or have different needs, from the
mother’s previous baby/ babies.
• The mother may have recently fed (or still be feeding) a toddler and has
forgotten quite how much help a new baby requires to breastfeed.
• Their previous baby may have been born at a time when underpinning
information now known to be outdated was thought to be correct.
1.1.6. Contra indications to breastfeeding
It may be contraindicated to the mother to breastfeed her child in some cases. For
example: Galactosemia in the infant, illegal drug use in the mother, and active
tuberculosis. Breast feeding may be also be contraindicated in case of HIV/AIDS –
in some countries, the risk of infant mortality from not breastfeeding may outweigh
the risk of acquiring HIV through breast milk. The use of certain drugs, such as
radioactive isotopes, antimetabolites, cancer chemotherapy agents, lithium, and
ergotamine constitute a contraindication during breast feeding.
Self-assessment 1.1
1. Identify the advantages of exclusive breast feeding of a child until six
months?
2. Outline the teaching points for breast feeding
1.2. Formula-feeding
Learning activity 1.2
Observe the following pictures and respond to questions given below it
1.2.1. Formula-feeding
It may happen that a mother lack or have not enough breast milk for her baby, so
it becomes a requirement to search for other sources of nutrients for replacement
in order to help the child to achieve normal growth and maintain normal health.
A Formula-feeding is a substitute for breast milk that can be used either as an
alternative to breastfeeding or as a way of supplementing it. This should include
proper amounts of water, carbohydrate, protein, fat, vitamins and minerals.
Manufacturers continue to modify their products in an effort to emulate human milk,
and although they provide less than the optimal benefits of human milk, they are
nutritionally adequate for the first year of life.
1.2.2. The three major classes of infant formulas:
a) Milk-based formulas prepared from cow milk with added vegetable oils,
vitamins, minerals, and iron. These formulas are suitable for most healthy
full-term infants.
b) Soy-based formulas made from soy protein with added vegetable oils (for fat
calories) and corn syrup and/or sucrose (for carbohydrate). These formulas
are suitable for infants who cannot tolerate the lactose in most milk-based
formulas or who are allergic to the whole protein in cow milk and milk-based
formulas.
c) Special formulas for low birth weight (LBW) infants, low sodium formulas for
infants that need to restrict salt intake, and “predigested” protein formulas for
infants who cannot tolerate or are allergic to the whole proteins (casein and
whey) in cow milk and milk-based formulas.
The standard formula choice is a cow’s milk-based formula, containing skim
milk powder, lactose and a variable blend of oils. These formulas are available
in two versions: low iron (similar amounts as in human milk, but with much lower
bioavailability) or iron-fortified (12 mg elemental iron/l). Use of low iron formulas is
one of several risk factors implicated in the incidence of iron deficiency anaemia,
the most common nutritional deficiency among infants and toddlers. To provide the
best guarantee of normal iron status, the use of iron-fortified formulas, not low iron
formulas is recommended.
Soy-based formulas made from soy protein, vegetable oils and glucose polymers
(±sucrose) are available for infants of vegetarian families, infants with galactosaemia
or lactose intolerance, or infants with IgE-mediated allergy to cow’s milk protein. Soy
formulas are not indicated for low-birth-weight infants, prevention or management
of colic, routine treatment of gastroenteritis, or treatment of infants with non
IgEmediated allergy to cow’s milk protein (i.e. enteropathy or enterocolitis). Recent
concerns with respect to the safety of soy formulas are related to their content of
phyto-oestrogens. Different factors can lead to a low milk supply during breast
feeding or contraindicate it – mother’s disease, use same medications, waiting too
long to start breast-feeding, not breast-feeding often enough. Sometimes previous
breast surgery may affect milk production.
1.2.3. Advantages of formula-feeding
Time and frequency of feedings: Formula-fed babies usually eat less often than
breastfed babies since formula feeds take longer to digest.
Diet: Formula feeds are very important for a mom who needs to be on a medication
that might harm the baby.
Convenience and Flexibility: Your partner or anyone can feed Your Child at any
time without you having to pump, and store breast milk, especially if that isn’t an
option. You don’t need to find a private place to nurse in public.
1.2.4. Disadvantages of formula-feeding
Lack of antibodies: Formula feeds don’t have the antibodies found in breast milk.
As a result, formulas can’t provide to the child with immunity against infection and
illness the way breast milk does.
Unable to match the complexity of breast milk: Formulas can’t measure up to
the complexity of breast milk in the way it changes with baby’s needs.
There’s a need for planning and organization: Breast milk is always available
and at the right temperature, but formula feeds require planning to ensure that you
have all the things you need to prepare it. You must make sure you don’t run out of
stock to avoid making late-night trips to the store.
Also, you must ensure that all the necessary supplies (like bottles and nipples) are
clean, easily accessible, and ready to use. You will have to feed the child 8-10 times
in 24-hours, so if you’re not organized, you can easily get overwhelmed.
Formula can be expensive: Baby formula is quite expensive. The most expensive
type is ready-to-feed formulas, followed by the concentrated type. The least expensive
is the powdered formula. Special formulas, such as soy and hypoallergenic, can
cost even more than the ready-to-feed formulas.
It may cause gassy tummy and constipation: It’s more likely for formula-fed
babies to have gassy tummy and constipation than breastfed babies.
It may increase the risk of infections: Often formulas need to be mixed with
water. So if the water is not 100% free of bacteria or other germs, there is a risk of
infection, and in the first 12 months, this can lead to serious complications for the
baby.
Self-assessment 1.2
1. Identify the major classes of infant formulas.
2. Explain the disadvantages of formula feeding.
3. What are the advantages of three major classes of infant formulas?
1.3. Supplementary feeding
Learning activity 1.3
Observe the following pictures and answer the given questions
1.3.1.Vitamin and mineral supplementation
With the exception of vitamins D and K, human milk from well-nourished mothers
provides all the nutrients required for the first four to six months of life. Routine
administration of intramuscular vitamin K at birth has eliminated vitamin K deficiency.
Commercial infant formulas are fortified with vitamins and minerals; therefore,
supplements are unnecessary.
a. Vitamin D
Human milk contains very little vitamin D. Therefore, an additional source is
recommended for exclusively breast-fed infants who may not be exposed to sunlight.
Vitamin D needs will be met from occasional exposure to small amounts of sunlight,
or prophylactic supplementation with 200 IU (5 μg) vitamin D/day. Infants at risk for
vitamin D deficiency and the development of nutritional rickets are those who are
dark-skinned, exclusively breast-fed, living at high northern or southern latitudes,
or weaned to vegetarian diets. Naturally occurring dietary sources of vitamin D are
rare (liver, oily fish), while only milk and margarine may be fortified with vitamin D in
some countries. With increasing use of sunscreen and avoidance of sun exposure
due to the risks of skin cancer, the potential for vitamin D deficiency may be higher.
b. Iron deficiency
Iron deficiency is most common among infants between the ages of 6 and 24 months.
The major risk factors for iron deficiency anemia in infants relate to socioeconomic
status and include the early consumption of cow’s milk, inadequate funds for
appropriate foods, and poor knowledge of nutrition. Other high-risk groups include
low birth weight and premature infants and older infants who drink large amounts
of milk (1liter/day) or juice and eat little solid food. The importance of preventing
rather than treating anaemia has been accentuated by findings that iron deficiency
anaemia may be a risk factor for developmental delays in cognitive function and
that this delay is irreversible with iron therapy and persists into early childhood.
Strategies for the prevention of iron deficiency anaemia
In order to prevent iron deficiency anaemia the baby should be exclusively breast
fed during the first 4–6 months, then there will be the introduction of iron-fortified
infant cereal, other iron-rich foods (e.g. strained meats) and enhancers of iron
absorption (vitamin C, e.g. fruit) from 6 months. There is a need of using iron
fortified formula for infants weaned early from the breast or formula fed from birth.
The introduction of unmodified cow’s milk should be delayed until at least 9–12
months of age.
c. Fluoride
Fluoridation of the water supply has proven to be the most effective, cost-efficient
means of preventing dental caries. In areas with low fluoride levels in the water
source, fluoride supplements are recommended.
The increased availability of fluoride (fluoridated water, foods or drinks made with
fluoridated water, toothpaste, mouthwashes, and vitamin and fluoride supplements)
has resulted in an increasing incidence of very mild and mild forms of dental fluorosis
in both fluoridated and non-fluoridated communities.
This sign of excess fluoride intake has led to modifications in fluoride recommendations
including later introduction and lower doses of fluoride supplements, and caution
to parents of young children to use small amounts, and discourage swallowing of
toothpaste. Dental fluorosis has not been shown to pose any health risks and while
there may be mild cosmetic effects, the teeth remain resistant to caries.
d. Cow’s milk
The use of unmodified cow’s milk before 9–12 months of age is not recommended.
In comparison to human milk and iron fortified formula, cow’s milk is higher in
nutrients such as protein, calcium, phosphorus, sodium, and potassium and
significantly lower in iron, zinc, ascorbic acid, and linoleic acid. Nutrients in solid
foods emphasize these excesses and deficiencies, so that cow’s milk-fed infants
receive a higher renal solute load and are at greater risk of eating an unbalanced
diet. In particular, the risk for iron depletion and iron deficiency anaemia is higher
because the iron content of cow’s milk is low and not readily bioavailable and its
absorption may be impaired by the high concentrations of calcium and phosphorus
and low concentration of ascorbic acid in cow’s milk. In addition, intestinal loss of
(blood) iron in the stool is associated with Cow’s milk-feeding in the first six months
of life. Whole cow’s milk (3.3% butterfat) continues to be recommended for the
second year of life. Two percent milk may be an acceptable alternative provided
that the child is eating a variety of foods and growing at an acceptable rate.

Table 1.3. 1 Nutrient content of human milk, formula, and cow’s milk per liter

Self-assessment 1.3
1. Explain how to prevent iron deficiency anemia to an infant during the
weaning period?
2. Identify the nutrients which are highly found in cow’s milk in comparison
to human milk and iron fortified formula?
3. Which foods should be emphasized in order to avoid excesses and
deficiencies resulting from cow’s milk as supplementary food during
weaning period
1.4. Childhood special considerations
Learning activity 1.4
Observe the pictures below

1. What message do you get from each of the above-mentioned pictures?
2. Compare the pictures A and B in terms of the activities that are being
done and their importance.
3. What do expect to study in this lesson?
1.4.1. Special considerations for childhood
Childhood is usually regarded as the period between 2 and 10 years. The linear
growth of pre-pubertal children occurs at a relatively constant rate of about 6 cm
per year. The median heights and weights of girls and boys are very similar. In
average, they increase from 87 cm and 12 kg at age 2 years, to 137 cm and 32 kg
at 10 years.
Children are a potentially vulnerable group since they are entirely dependent upon
parents or caregivers for all nutritional needs. Inadequate intakes of energy and
essential nutrients may compromise growth and development to an extent which
may have lasting consequences.
However, in most relatively affluent societies where a wide variety of foods are
available, growth and development usually occur quite satisfactorily without detailed
dietary advice. Obesity, rather than under-nutrition, is the major nutrition-related
disorder. An important consideration is that eating habits determined in childhood
may be important determinants of chronic disease in later life.
1.4.2. Calories and Nutrients
Total calorie needs steadily increase during childhood, although calorie needs per
kilogram of body weight progressively fall. The challenge in childhood is to meet
nutrient requirements without exceeding calorie needs.
1.4.3. Eating Practices
As children get older, they consume more foods from non -home sources and have
more outside influences on their food choices. School, friends’ houses, childcare
centers, and social events present opportunities for children to make their own
choices beyond parental supervision.
Children who are home alone after school prepare their own snacks and, possibly,
meals.
The ideal of children eating breakfast, dinner, and a snack at home, with a nutritious
brownbag or healthy cafeteria lunch at school, is not representative of what most
children are eating. Children who eat dinner with their families at home tend to have
higher intakes of fruits, vegetables, vitamins, and minerals and lower intakes of
saturated and trans-fatty acids, soft drinks, and fried foods. Family meals promote
social interaction and allow children to learn food-related behaviors. Parents should
provide and consume healthy meals and snacks and avoid or limit empty-calorie
foods.
1.4.4. Nutrients of Concern
Important concerns during childhood include excessive intakes of calories, sodium,
and fat, especially saturated fat. Nutrients most likely to be consumed in inadequate
amounts are calcium, fiber, vitamin E, magnesium, and potassium. The percentage
of children with usual nutrient intakes below the Estimated Average Requirement
(EAR) tends to increase with age and is greater among females than males. It is
recommended to children who consume less than1 L/day of vitamin D–fortified milk
takes a supplement of 400 IU/day.
Self-assessment 1.4
1. Identify nutrients which are excessively consumed by children and those
which are consumed in inadequate amounts.
2. What would you recommend to parents/care givers for promoting the
good eating habits of children?
3. What nutrients should be mostly recommended for promoting the growth
of children
1.5. Special considerations and nutritional disorders in
adolescence
Learning activity 1.5
Observe the pictures below and answer the questions given below:
1.5.1. Introduction
During adolescence physiological age is a better guide to nutritional needs than
chronological age. Energy needs increase to meet greater metabolic demands of
growth. Daily requirement of protein also increases. Calcium is essential for the
rapid bone growth of adolescence, and girls need a continuous source of iron to
replace menstrual losses. Boys also need adequate iron for muscle development.
Iodine supports increased thyroid activity, and use of iodized table salt ensures
availability. B-complex vitamins are necessary to support heightened metabolic
activity.
Many factors other than nutritional needs influence the adolescent’s diet, including
concern about body image and appearance, desire for independence, eating at
fast-food restaurants, peer pressure, and fatty diets. Nutritional deficiencies often
occur in adolescent girls as a result of dieting and use of oral contraceptives.
Skipping meals or eating meals with unhealthy choices of snacks contributes to
nutrient deficiency and obesity.
Fortified foods (nutrients added) are important sources of vitamins and minerals.
Snack food from the dairy and fruit and vegetable groups are good choices. To
counter obesity, increasing physical activity is often more important than restricting
intake.
The onset of eating disorders such as anorexia nervosa or bulimia nervosa often
occurs during adolescence. Recognition of eating disorders is essential for early
intervention. Sports and regular moderate-to-intense exercise necessitate dietary
modification to meet increased energy needs for adolescents.
Carbohydrates, both simple and complex, are the main source of energy, providing
55% to 60% of total daily kilocalories. Protein needs increase to 1 to 1.5 g/kg/day.
Fat needs do not increase. Adequate hydration is very important. Adolescents need
to ingest water before and after exercise to prevent dehydration, especially in hot,
humid environments. Vitamin and mineral supplements are not required, but intake
of iron-rich foods is required to prevent anemia.
Parents have more influence on adolescents’ diets than they believe. Effective
strategies include limiting the amount of unhealthy food choices kept at home,
encouraging smart snacks such as fruit vegetables or string cheese, and enhancing
the appearance and taste of healthy foods.
The ways to promote healthy eating include making healthy food choices more
convenient at home and at fast-food restaurants; and discouraging adolescents
from eating while watching television.
Malnutrition at the time of conception increases risk to the adolescent and her fetus.
Most teenage girls do not want to gain weight. Counseling related to nutritional
needs of pregnancy is often difficult, and teens tolerate suggestions better than rigid
directions. The diet of pregnant adolescents is often deficient in calcium, iron, and
vitamins A and C. Prenatal vitamin and mineral supplements are recommended.
1.5.2. Nutritional disorders in adolescence
Adolescence is a stressful time for most young people. They are unexpectedly faced
with numerous physical changes, an innate need for independence, increased work
and extracurricular demands at school, in many cases jobs, and social and sexual
pressures from their peers. For many teens, such stress can cause one or more of
the following problems: anorexia nervosa, bulimia.
a. Anorexia Nervosa
Anorexia nervosa, commonly called anorexia, is a psychological disorder
characterized by an obsessive desire to lose weight by refusing to eat. It is more
common to women than men. It can begin as early as late childhood, but usually
begins during the teen years or the early twenties.
It causes the adolescent to drastically reduce calories, causing altered metabolism,
which results in hair loss, low blood pressure, weakness, amenorrhea, brain
damage, and even death.
The causes of anorexia are unclear. Someone with this disorder (an anorexic)
has an inordinate fear of being fat. Some anorexics have been over-weight and
have irrational fears of regaining lost weight. Some young women with demanding
parents perceive this as their only means of control. Some may want to resemble
slim fashion models and have a distorted body image, where they see themselves
as fat even though they are extremely thin. Some fear growing up. Many are
perfectionistic overachievers who want to control their body. It pleases them to deny
themselves food when they are hungry.
These young women usually set a maximum weight for themselves and become
an expert at “counting calories” to maintain their chosen weight. They also often
exercise excessively to control or reduce their weight. If the weight declines too far,
the anorexic will ultimately die.
Treatment requires the following:
Development of a strong and trusting relationship between the client and the health
care professionals involved in the case. The adolescent should learn and accepts
that weight gain and a change in body contours is normal during adolescence.
There is need to focus on nutritional therapy so that the adolescent understand the
need for both nutrients and calories and how best to obtain them. Individual and
family should be counselled in order to make sure that the problem is understood
by everyone. Close supervision should be done by the health care professional. For
achieving the desired results, there is need of time and patience from all involved.
b. Bulimia
Bulimia is a syndrome in which the adolescent alternately binges and purges by
inducing vomiting and using laxatives and diuretics to get rid of ingested food.
Bulimics are said to fear that they cannot stop eating. They tend to be high
achievers who are perfectionistic, obsessive, and depressed. They generally lack
a strong sense of self and have a need to seem special. They know their binge–
purge syndrome is abnormal but also fear being overweight. This condition is more
common among women than men and can begin any time from the late teens into
the thirties.
A bulimic usually binges on high-calorie foods such as cookies, ice cream, pastries,
and other forbidden foods. While eating, the binge can take only a few moments or
several hours—until there is no space for more food. It occurs when the person is
alone. Bulimia can follow a period of excessive dieting, and stress usually increases
the frequency of binges.
Bulimia is not usually life-threatening, but it can irritate the oesophagus and cause
electrolyte imbalances, malnutrition, dehydration, and dental caries.
Treatment usually includes limiting eating to mealtimes, portion control, and close
supervision after meals to prevent self-induced vomiting. Diet therapy helps teach
the adolescent basic nutritional facts so that he or she will be more inclined to treat
the body with respect. Psychological counselling will help to understand his or her
fears about food. Group therapy also can be helpful.
Both bulimia and anorexia can be problems that will have to be confronted
throughout the client’s life
Self-assessment 1.5
1. Identify the most required nutritional needs during adolescence age.
2. What are the factors (other than nutritional needs) that influence the
adolescent diet?
3. What are the characteristics of anorexia nervosa?
4. What are the requirements for the treatment of anorexia nervosa?
5. Describe the characteristics of an adolescent suffering from bulimia.
6. Discuss the management of bulimia.
1.6. Special nutrition in pregnancy
Learning activity 1.6

1. What are you seeing on the pictures A and B?
2. Describe the activities which are being done on the pictures A and B.
3. What do you think may be the title of today’s lesson?
4. What do you think is the role of each food presented on picture C?
1.6.1. Balanced diet
A balanced diet is essential for the good health of a pregnant mother and her baby.
Eating well will provide nutrients that are needed by the mother and her baby. A
healthy diet will also help ensure a healthy weight gain, ensure get the key vitamins
and minerals needed, and reduce the risk of pregnancy complications.
Poor nutrition during pregnancy and unhealthy lifestyle behaviors during pregnancy
increase the risk of developing nutrient deficiencies, birth defects and pregnancy
complications, it causes also low birth weight in infants and decreases chances of
survival. Maternal underweight is associated with an increased risk of premature
birth and maternal overweight is associated with a higher frequency of premature
birth, higher Caesarean section rates and increased risk of neural tube defects. A
healthy diet and regular physical activity may reduce the risk of negative pregnancy
outcomes associated with underweight and overweight. Many women mistakenly
believe that during pregnancy they need to “eat for two” (mother and baby).
The energy requirements of pregnancy are related to the mother’s body weight and
activity. The quality of nutrition during pregnancy is important, and food intake since
the first trimester includes balanced portions of essential nutrients with emphasis
on quality. Protein intake throughout pregnancy needs to increase to 60 g daily,
which represents an increase from 46g/d in non-pregnant states. Protein is essential
for the growth and development of fetus. In other words, this increase reflects a
change to 1.1g of protein/kg/day during pregnancy from 0.8g of protein/kg/day for
non-pregnant states.
The pregnant women should eat two to three portions of protein rich foods every
day including lean meat, poultry, seafood, eggs, legumes, tofu, nuts and seeds.
1.6.2. Calcium
Calcium intake is especially critical in the third trimester, when fetal bones are
mineralized. It is especially important for the growth of strong bones. It’s important to
consume adequate amounts of calcium in pregnancy to support the musculoskeletal,
nervous, and circulatory systems. Pregnant women who do not consume sufficient
amounts of calcium are at greater risk of developing osteoporosis later in life.
Pregnant and lactating women need 1000 mg of calcium per day. Pregnant teens
need 1300 mg of calcium per day. Foods rich in calcium include dairy products such
as milk, yoghurt, and cheese. Plant sources include tofu, green leafy vegetables
and fortified foods.
1.6.3. Iron
Iron needs to be supplemented to provide for increased maternal blood volume,
fetal blood storage, and blood loss during delivery. However, by focusing on eating
a variety of iron-rich foods, you should be able to get all the iron you need from
foods. Foods high in iron include red meat such as beef, lamb and eggs, lean beef
and poultry. Plant sources include spinach, and whole grain cereals, dark green,
leafy vegetables, citrus fruits. Iron from plant sources is less readily absorbed by
the body than those from animal foods. Iron absorption can be increased from plant
sources by eating them with foods rich in vitamin C, like fruits and vegetables.
1.6.4. Folic acid
Folic acid intake is particularly important for deoxyribonucleic acid (DNA) synthesis
and the growth of red blood cells. Inadequate intake can lead to fetal neural tube
defects, anencephaly, or maternal megaloblastic anemia. Sources of folic acid
include, but not limited to liver, nuts, dried beans, lentils and eggs.
1.6.5. Special consideration
Prenatal care usually includes vitamin and mineral supplementation to ensure daily
intakes; however, pregnant women should not take additional supplements beyond
prescribed amounts. On the other hand, alcohol use during pregnancy can cause
physical and neuro-developmental problems, such as mental retardation, learning
disabilities, and fetal alcohol syndrome. A high caffeine intake is associated with
low birth weight (LBW) but not with birth defects or preterm birth.
Self-assessment 1.6
You are requested to help a pregnant woman who came to your Health Center for
antenatal care in 1st term of pregnancy, which kind of foods you will recommend
to her during the remaining period.
1.7. Maternal Diet during lactation
Learning activity 1.7
Observe the pictures below
Nutritional needs during lactation are based on the nutritional content of breast milk
and the energy “cost” of producing milk. Compared with pregnancy, the need for
some nutrients increases, whereas the need for other nutrients falls. The healthy
diet consumed during pregnancy should continue during lactation.
The lactating woman needs 500 kcal /day above the usual allowance because
the production of milk increases energy requirements. Protein requirements during
lactation are greater than those required during pregnancy. The recommended
daily allowance for protein during lactation is an additional 25 g/day. The need for
calcium remains the same as during pregnancy (that is 1000mg/day). Lactating
teens need 1300 mg of calcium per day.
Requirements of many micronutrients increase compared to pregnancy, with the
exception of vitamins D and K, calcium, fluoride, magnesium, and phosphorus. As
such, it is recommended that women to continue to take a prenatal vitamin daily
while they are breastfeeding
There is an increased need for vitamins A and C. Daily intake of water-soluble
vitamins (B and C) is necessary to ensure adequate levels in breast milk.
For many vitamins and minerals, requirements during lactation are higher than
during pregnancy. In general, an inadequate maternal diet decreases the quantity
of milk produced, not the quality. The exceptions are thiamin, riboflavin, vitamin
B6, vitamin B12, vitamin A, and iodine: prolonged inadequate maternal intake of
these nutrients reduces their amount in breast milk and may compromise infant
nutrition. While maternal supplements can correct inadequacies, there are no
consistent recommendations concerning the use of supplements during lactation.
Women are encouraged to obtain nutrients from food, not supplements; however,
iron supplements may be needed to replace depleted iron stores, not to increase
the iron content of breast milk.
Another nutritional consideration during lactation is fluid intake. It is suggested
that breastfeeding mothers drink a glass of fluid every time the baby nurses and
with all meals. Thirst is a good indicator of need except among women who live in
a dry climate or who exercise in hot weather. Fluids consumed in excess of thirst
quenching do not increase milk volume.
In reality, breastfeeding is not always associated with return to preconception
weight, and some women actually gain weight during lactation.
Other considerations concerning maternal diet and breast milk are as follows:
Highly flavored or spicy foods may impact the flavor of breast milk but need only
be avoided if infant feeding is affected. Some babies are irritated by spicy foods,
but others are fine with it
So, it is best to lessen the number of spices in food for lactating mother, if she
notices her baby being uncomfortable with it.
Caffeine, alcohol, and drugs are excreted in breast milk and should be avoided.
Consistent evidence shows that when a lactating mother consumes alcohol, it easily
enters breast milk and results in reduced milk production. There is no scientific
evidence to support alcohol consumption during lactation. An occasional drink of
alcohol may occur, but women should not breastfeed for at least 4 hours afterward.
The lactating mother should be aware that caffeine enters breast milk. Maternal
intake should be moderate, such as the equivalent of one to two cups of coffee
daily.
Chocolate is rich in theobromine, and when eaten, has a similar effect to that of
caffeine. Though people love having chocolate, they should cut down the quantity
while breastfeeding.
Some babies could be intolerant to cow milk. When the mother drinks cow milk or
has dairy products, then the allergens that have entered the breast milk irritate the
baby. After consuming dairy products, if the baby shows symptoms like colic and
vomiting, it means that the intake of the dairy products should stopped for a while.
The smell of garlic can affect the smell of breast milk. Some babies hate it while
others like it. Therefore, garlic may be stopped if the baby is uncomfortable while
nursing. Some babies might fuss or grimace at the breast when they encounter
the strong smell of garlic. Until you wean your baby, avoid peanuts, especially if
your family has a medical history of allergies to peanuts. Peanuts allergic proteins
might pass to the produced breast milk, and then reach the baby.
If you consume fish or any other foods having high mercury content, then this will
appear in the breast milk. When breast milk has high levels of mercury, it might
affect the neurological development of your baby. A lactating mother should not
consume fish more than twice a week. It is best to avoid fish that has high mercury
completely.
If you had broccoli for dinner the previous day, then you should not be surprised
when your baby has gassy problems the next day. Other gassy foods like onions,
cabbage, cauliflower, and cucumber should be avoided while breastfeeding in
case the baby doesn’t tolerate them. Citrus fruits are an amazing source of Vitamin
C, but this can irritate the baby’s stomach due to their acidic components. As their
gastrointestinal tract is immature, they’re unable to deal with these acid components,
resulting in fussiness, diaper rashes, spitting up, and more. The mother doesn’t
have to remove citrus fruits completely from her diet, though. Having one grapefruit
or orange daily is fine. But if she decides to cut them out completely, then she
should have other vitamin C-rich foods like pineapples, papayas, and mangoes.
Self-assessment 1.7
1. Identify the maternal diet recommended during lactation period.
2. What will you discourage to eat or drink during lactation period?
1.8. Special geriatric nutritional needs
Learning activity 1.8
Observe the following pictures
1. What does each of the pictures A, B, C, and D communicate to you?
2. Identify the groups of foods included in picture A and their importance.
3. What do you expect to learn from this lesson?
Nutrition plays an important role in health maintenance, rehabilitation, and
prevention and control of disease. When dealing with nutritional issues, nurses
who work with older adults must consider the following: (1) the basic components
of a well-balanced diet for older adults; (2) how the normal physiologic changes of
aging change nutritional needs; (3) how the normal physiologic changes of aging
may interfere with the purchase, preparation, and consumption of nutrients; and
(4) how cognitive, psychosocial, and pathologic changes commonly seen in aging
impact one’s nutritional status.
Nutrition and aging
Nutritional needs do not remain static throughout life. Like other needs, older
adults’ nutritional needs are not exactly the same as those of younger individuals.
An understanding of older adults’ nutritional needs is essential for providing good
nursing care. Good nutrition practices play a vital role in health maintenance and
health promotion. Good eating habits throughout life promote physical wellness
and mental well-being. Inadequate nutrition and fluid intake can result in serious
problems such as malnutrition and dehydration. Poor nutrition practices can
contribute to the development of osteoporosis and skin ulcers, and can complicate
existing conditions, such as cardiovascular disease and diabetes mellitus.
Good eating habits developed early in life promote health in old age. Older adults
are at risk for nutritional problems because of changes in physiology including
changes in body composition, gastrointestinal tract, metabolism, central nervous
system, renal system, and the senses. There are also changes in income, changes
in health, psychosocial changes, and memory loss (senile dementia), which may
include forgetting to eat. Other changes include sensory changes, and physical
problems like weakness, gouty arthritis and painful joints.
Some elderly people have difficulty getting adequate nutrition because of age
or disease related impairments in chewing, swallowing, digesting and absorbing
nutrients. Age-related gastrointestinal changes that affect digestion of food and
maintenance of nutrition include changes in the teeth and gums, reduced saliva
production, atrophy of oral mucosal epithelial cells, increased taste threshold,
decreased thirst sensation, reduced gag reflex, and decreased esophageal
and colonic peristalsis. Their nutrient status may also be affected by decreased
production of chemicals to digest food (digestive enzymes), changes in the cells of
the bowel surface and drug–nutrient interactions.
The presence of chronic illnesses (e.g., diabetes mellitus, end-stage renal disease,
cancer) often affects nutrition intake. Adequate nutrition in older adults is affected
by multiple causes such as lifelong eating habits, ethnicity, and socialization. It is
also affected by income, educational level, and physical functional level to meet
activities of daily living (ADLs), loss, dentition, and transportation.
Adverse effects of medications cause problems such as anorexia, gastrointestinal
bleeding, xerostomia, early satiety, and impaired smell and taste perception.
Cognitive impairments such as delirium, dementia, and depression affect ability to
obtain, prepare, and eat healthy foods.
Some elderly people demonstrate selenium deficiency, a mineral important for
immune function. Impaired immune function affects susceptibility to infections and
tumors (malignancies). Vitamin B6 helps to boost selenium levels, so a higher
intake for people aged 51–70 is recommended.
Nutritional interventions should first emphasize healthy foods, with supplements
playing a secondary role. Although modest supplementary doses of micronutrients
can both prevent deficiency and support immune functions, very high dose
supplementation (example, high dose zinc) may have the opposite effect and result
in immune-suppression. Therefore, elderly people also need special attention with
regard to nutritional care.
Older adults represent a heterogeneous population that varies in health, activity,
and nutritional status. Generalizations about nutritional requirements are less
accurate for this age group than for others.
Generally, Calorie needs decrease with age; attributed in large part to progressive
decreases in physical activity (a decrease in physical activity directly lowers calorie
expenditure. Indirectly, a decrease in physical activity leads to a loss of lean body
mass).
Requirements for older people increase for calcium and vitamin D. For example,
in order to reduce the risk for age related bone loss and fracture, the requirement
for vitamin D is increased from 200 IU/day to 400 in individuals of 51–70 years
of age and to 600 IU/day for those over 70 years of age. The equivalent of three
glasses of milk is needed to meet calcium requirement in older adults. Calcium
supplements may be necessary to achieve the recommended amount. Other
nutrients important for bone health include vitamin A, vitamin K, magnesium, vitamin
C, and phytoestrogens.
Older adults need to obtain their Recommended Dietary Allowance (RDA) for
vitamin B12 from the synthetic form found in supplements or fortified foods. The
dietary Reference Intakes (DRIs) for sodium decreases due to the decrease in
calorie requirement. The RDA for iron in women decreases when menses stops.
Generally, older adults do not consume enough vitamin E, magnesium, fiber,
calcium, potassium, and probably vitamin D. They should be encouraged to eat
more whole grains, dark green and orange fruits and vegetables, legumes, and milk
and milk products.
Screening for nutritional problems is appropriate for all older adults and in all settings.
Screening is essential so that timely nutrition intervention can be instituted. Weight
loss is the most effective dietary strategy against osteoarthritis. The benefits of
weight loss and exercise combined are greater than when either method is used
alone. Benefits include improvements in physical function and quality of life.
Even interventions begun late in life can slow or stop bone loss characteristic of
osteoporosis.
Sarcopenia is the loss of muscle mass and strength that occurs with aging. It is
not inevitable and can be reversed with resistance training and adequate protein
intake. To build muscle in older adults, more protein than the RDA may be required.
The treatment of obesity in older adults is not without risk. Weight loss can be
counterproductive if it comes from a loss of muscle and bone, not fat. For many
older adults, malnutrition presents more of a risk than overweight. A heart healthy
diet may help reduce the risk of Alzheimer disease (AD) and coronary heart disease
(CHD).
Pressure ulcers increase the need for calories, protein, and other nutrients.
Increasing nutrient density without increasing the volume of food served may be the
most effective method of delivering additional nutrients. Between-meal supplements
may also be needed to maximize intake.
Self-assessment 1.8
1. What are the negative effects that result from poor nutrition practices of
older people?
2. Why older adults are at risk for nutritional problems?
3. Discuss the food components and their sources that should be emphasized
in the diets of older Adults.
1.9. Food security and availability
Learning activity 1.9

1.9.1.Introduction to Food security and availability
The concept of food security means that the need for households to have both
physical and economic access to the national food supply is fulfilled. The household
food security exists when all the people living in the household have physical,
social and economic access to sufficient, safe and nutritious food at all times. It
should meet their dietary needs and food preferences for an active and healthy life
Food security is more than simply access to enough food to prevent death by
starvation. The current understanding of food security accordingly emphasizes the
quality of the diet – on the need for dietary diversity and for food that supplies the
micronutrients necessary to create and sustain health.

1.9.2. Levels of food and nutrition security
An individual’s food security – at house level, is the final step in a sequence of food
production and distribution, from the availability of food globally and nationally to
access to food at the household level. Global food availability refers to the total
amount of food that is produced globally. Currently, global food availability would
be more than adequate to meet the energy needs of the entire world’s people if the
provision of food was equally distributed.
National food availability refers to the amount of food available for consumption
by a country’s population. This supply of food consists of total agricultural production
(cash crops, livestock, and food crops), net food imports (imports minus exports),
food aid, and food stocks. A country is self-sufficient if it is able to produce 100% (or
more) of its national food requirements
1.9.3. Household Food Security:
Sufficient amounts of food may be available at the national level, but people must
have both physical and economic access to this food. Unless they are able to
generate enough food on their own to provide a balanced diet, they must be able
to reach a place where food is available. National food security is a prerequisite
but no guarantee of household food security. Household food security includes the
following:
(1) Households need physical access to a place where food is available.
Households typically obtain food through producing their own crops or livestock for
consumption, purchasing from markets, receiving food as a transfer from relatives,
members of the community, the government, or foreign donors, and gathering in the
wild. Physical availability of food relates to local production, agricultural productivity,
and the ability of markets to deliver food to consumers and agricultural inputs to
farmers. In developing countries, availability through local food production is often
affected by low agricultural productivity, seasonality, and inadequate adoption of
appropriate technologies.
(2) Regardless of the source of food, households must have the means to acquire
appropriate foods. Economic access therefore refers to the affordability of food
to the consumer. The majority of people worldwide, including those in low-income
countries, obtain at least part of their food through markets. Households’ ability to
purchase food depends on the households’ income and the price of food.
The factors that affect either food prices or household income influence the people’s
ability to buy food.
(3) Socio-political access: Various social and political factors affect household
food security. Households in developing countries may, for example, have unequal
access to food because of unequal social conditions and exclusionary practices.
Social conflict can also threaten the food access of affected people.
The causes of food and nutrition insecurity all relate to either insufficient national
food availability or insufficient access to food by households and individuals.
Several global risks can potentially impact the availability of food at the national level.
These include high and volatile food prices, financial and economic shocks, climate
change, and epidemic outbreaks of human disease and crop and livestock disease.
Other factors may be: the general social, economic, and political environment
prevailing at national level; the presence of natural shocks or conflict; the quality of
commercial and trade policies; the commitment of the political leadership to hunger
reduction; and the prevalence of institutions that enable participation of women
and marginal groups in decision-making processes that affect their future. The
food insecurity at the household level include shocks in production (e.g., harvest
failure), market (e.g., lost employment), or household expenditure (e.g., emergency
medical costs resulting in less money available for food).
Other factors may include, but not limited to the following reasons: rapid
population growth (It is not always easy to purchase food for large numbers of
family members), conflict and/or civil war (interfere with production, marketing
and distribution), and extreme production fluctuation. They include also limited
or lack of employment, lower level of saving, high rate of natural erosion and/
or natural disasters, poor health and sanitation which may lead to the increased
morbidity, mortality and reduced productivity due to illness, deforestation leads
to high top soil erosion and poor soil fertility. It will lead to decreased rainfall and
dryness.
1.9.5. Consequences of household food insecurity
The body’s response to chronic hunger and malnutrition is a decrease in body size.
In small children this is known as stunting, or stunted growth, and is indicated by
low weight for height. This process starts as the baby is growing in the uterus, if the
mother is malnourished, and continues until approximately the third year of life. It
leads to higher infant and child mortality, with rates increasing significantly during
famines.
Once stunting has occurred, improved nutritional intake later in life cannot reverse
the damage. Premature failure of vital organs occurs during adulthood.
For example, a 50-year-old individual might die of heart problems because their
heart suffered structural defects during early development. Stunted individuals
suffer a far higher rate of disease and illness than those who have not undergone
stunting. Severe malnutrition in early childhood often leads to defects in mental
development. Chronic food insecurity will lead to poor growth, slower development,
low educability, school absenteeism or dropout, and increased morbidity and
decreased survival impacting on the socioeconomic development through several
generations.
1.9.6. Community-based Actions to address food and nutrition
insecurity
Community-based interventions to improve household food availability and dietary
diversity are considered sustainable solutions to address household food and
nutrition insecurity in developing countries. In these interventions, household
food availability is increased through local production, thereby increasing the
household’s access to diverse and micronutrient-rich foods. Such programs can
also lead to reduced household poverty, improved nutritional status of household
members, and potentially empower women.
Food-based strategies at the community level generally focus on the production
of nutritious food for household consumption. These strategies have the potential
for income generation, provided that households produce a surplus and have easy
access to markets at which to sell their harvest. Economically viable post-harvest
products could further enhance market possibilities for locally produced crops.
To ensure that the gardening activities translate into improved dietary quality,
home-gardening projects need to include a strong nutrition education and behavior
change component. Various entry points can be used for nutrition education
and promotions. The best choice of intervention depends on the nature and
the magnitude of the problem. A situation assessment prior to the intervention
will indicate which elements of food insecurity are involved and who is affected.
Analysis of the underlying causes of food and nutrition insecurity should be the core
of any sustainable intervention that aims to prevent recurrence and does not create
dependency.
Self-assessment 1.9
1. Identify the levels of food security.
2. What are the causes of food insecurity?
1.10. Food contamination and spoilage
Learning activity 1.10

1. Name the items in the pictures A, B, C, D, E and F and indicate the place
where they are
2. What is happening on picture C and F? What do you think will be the
result?
Bacteria are a major source of microbial contamination of food (i.e., the undesired
presence in food of harmful microorganisms or the harmful substances they
produce). Viruses, parasites and fungi are also able to contaminate food and cause
foodborne illnesses in humans
1.10.1.Routes for food contamination
Microorganisms can enter food through different routes including the followings:
Air and dust: Microorganisms are found everywhere in our environment. Many
types of microbes can be found in air and dust, and can contaminate food at any
time during food preparation or when food is left uncovered.
Soil, water and plants: Many microorganisms present in soil and water may
contaminate foods. Microorganisms also grow on plants and can contaminate food
if care is not taken to remove them by washing or inactivate them by cooking.
Gastrointestinal tract: The intestines of all humans and animals are full of
microorganisms, some of which are beneficial but others are pathogenic. Bacterial
pathogens such as Salmonella, Campylobacter and Escherichia coli are common
examples.
Animals: Many foodborne microorganisms are present in healthy animals raised
for food, usually in their intestines, hides, feathers, etc. Meat and poultry carcasses
can be contaminated during slaughter by contact with small amounts of intestinal
contents. For example, in animals slaughtered in rural communities without any
safety measures, microorganisms present in the animals’ intestines can easily
contaminate the meat.
Food handlers: The term food handler can be applied to anyone who touches or
handles food, and this includes people who process, transport, prepare, cook and
serve food. The presence of microorganisms on the hands and outer garments
of food handlers reflects the standard of hygiene in the environment and the
individuals’ personal hygiene.
Food utensils: Food utensils are cutting boards, knives, spoons, bowls and other
equipment used in food preparation, which may become contaminated during food
processing and preparation. For example, in families where there is no access to
running water, the food utensils may not be properly cleaned, stored and handled,
and may become a major route of food contamination.
Cross-contamination of food is the transfer of harmful microorganisms between
food items and food contact surfaces. Prepared food, utensils and surfaces may
become contaminated by raw food products and microorganisms. These can be
transferred from one food to another by using the same knife, cutting board or other
utensil without washing it between uses.
A food that is fully cooked can become re-contaminated if it touches raw foods or
contaminated surfaces or utensils that contain pathogens.
Unsafe temperature: An unsafe temperature for food storage is a major factor in
food contamination. Many microorganisms need to multiply to a very large number
before enough are present in food to cause disease in someone who eats it.
Poor personal hygiene: Poor personal hygiene of food handlers is another major
factor in food contamination. The most important contaminants of food are the
microorganisms excreted with faeces from the intestinal tract of humans. These
pathogens are transferred to the food from faecal matter present on the hands.
Pests: Foods can be damaged and also contaminated by pests. Many stored
grains are lost through the damage done by pests, including termites (mist), beetles,
locusts, cockroaches, flies and rodents such as rats and mice. Pests can damage
and contaminate foods in various ways, such as boring into and feeding on the
insides of grains, or tunneling into stems and roots of food plants.
1.10.2. Prevention of food contamination
To prevent contamination, food production and preparation operations need to be
carefully controlled, in order to avoid exposing them to microbial, chemical and /or
physical food contamination.
In order to prevent microbial food contamination people have to have a habit of
hand washing before and during food preparation. Attention also needs to be given
to possible chemical contamination of food. Food can be contaminated through
the misuse or mistaken handling of chemicals, including pesticides, bleach and
other cleaning materials. All chemicals (detergent, disinfectant, sanitiser) used in
the food preparation area should be removed before food preparation begins, to
prevent any chemical contamination of the food. Physical contaminants include
stones, pieces of glass, and metal. Physical contamination can occur at any stage
of the food chain: for example, stones, bones, twigs, pieces of shell or foreign
objects can enter food during handling and preparation. These materials should
be removed, if possible, for example by sieving or picking out the items with clean
fingers.
1.10.3. Food spoilage
Microbial spoilage is caused by microorganisms like fungi and bacteria. They spoil
food by growing in it and producing substances that change the color, texture and
odor of the food. Eventually the food will be unfit for human consumption. Spoilage
may be physical or chemical.
Physical spoilage is due to physical damage to food during harvesting, processing
or distribution. The damage increases the chance of chemical or microbial spoilage
and contamination because the protective outer layer of the food is bruised or
broken and microorganisms can enter the foodstuff more easily.
Chemical spoilage: in this case chemical reactions in food are responsible for
changes in the color and flavor of foods during processing and storage. Foods are
of best quality when they are fresh, but after fruits and vegetables are harvested,
or animals are slaughtered, chemical changes begin automatically within the foods

and lead to deterioration in quality. Fats break down and become rancid (smell
bad), and naturally-occurring enzymes promote major chemical changes in foods
as they age
1.10.4.Factors influencing food spoilage
The factors that can increase or delay the process of food spoilage include its water
content, environmental conditions, packaging and storage. The amount of water
available in a food can be described in terms of the water activity. No matter whether
food is fresh or processed, the rate of its deterioration or spoilage is influenced by
the environment to which it is exposed. The exposure of food to oxygen, light,
warmth or even small amounts of moisture can often trigger a series of damaging
chemical and/or microbial reactions. Changing the environment can help to delay
spoilage (e.g. storing foods at low temperatures).
Packaging helps to protect food against harmful contaminants in the environment
or conditions that promote food spoilage including light, oxygen and moisture. The
type of packaging is a key factor in ensuring that the food is protected. Packaging
of foods in cans, jars, cartons, plastics or paper also serves to ensure food safety if
it is intact, because it provides protection against the entry of microorganisms, dust,
dirt, insects, chemicals and foreign material.
General measures for keeping food safe and clean in the household
Safe food-preparation practices should be respected. People have to observe the
following measures for keeping food safe and clean in the household:
1. Hands should always be clean whenever food is handled. Hot water and
soap should be used to wash hands after going to the bathroom, before
handling cooked foods, and after handling raw food.
2. A person who is ill should not prepare food.
3. During food preparation, contact between hands and the mouth, nose, or
hair should be avoided. Likewise, coughing and sneezing over foods are
forbidden. Tissues or handkerchiefs should be used to prevent contamination.
4. Tasting food with fingers and utensils used during preparation is not advised,
even if the cooking temperature is very hot.
5. Buy fresh foods on the day of consumption when possible, or use before the
expiry date (if indicated).
6. Do not buy foods with any of the danger signs
7. Frozen food should be thawed in a refrigerator, not put in warm water or left
out to thaw.
8. Store foods at the right temperature and covered.
9. Eat meals as soon as possible after preparation.
10. Use clean covered containers for fetching water.
11. Use a safe water supply, or else boil all water before use.
12. Wash hands with soap and water before food preparation, before eating
meals, and after touching animals, dirty areas, or soil or after visiting the
bathroom.
13. Keep food covered.
14. Cook food thoroughly or to the correct internal temperature.
15. Wash all food preparation and eating utensils thoroughly with water and
soap before use.
16. Wash all fruit and vegetables before peeling or eating.
17. Do not cough, spit, or touch the body during food preparation.
18. Keep rubbish bins closed at all times.
19. Keep animals away from food preparation areas.
Self-assessment 1.1 0
1. Describe at least 5 routes of contamination of foods
2. Identify the general measures for preventing food spoilage?
1.11. Food preservation and storage
Learning activity 1.11
Observe the pictures below:

1. What do pictures A and B communicate to you?
2. What do you expect to learn from this lesson?
1.11.1. Food preservation
Food preservation refers to the different techniques that are applied to food to
prevent it from spoiling. The science behind food preservation involves either: (1) the
destruction of micro-organisms responsible for causing food spoilage; (2) reducing/
eliminating the water (moisture) content from food; and (3) altering the temperature
and other conditions that favor the growth of food microorganisms, and thereby
retarding microbial growth and replication (thus delaying food spoilage). Simple
household food preservation techniques are the following:
a. Drying
A number of foods (fruits, vegetables, tubers-cassava, and potatoes) which cannot
be stored for long in their fresh state without spoiling can be preserved by drying.
Before drying, there should be enough sunshine and foods should be sliced in
small pieces for them to dry faster. Dried fruits can be eaten in their dry state (e.g.
dried jackfruit), vegetables and potatoes need to be cooked by boiling in water
while dried cassava can be ground into flour and used later
b. Smoking
Smoking meat and fish is a highly recommended method for prolonging their
storage life. The fish is first cooked over a high fire and then smoke-dried in one to
five days (and nights) over a low fire. Fresh-dried fish keeps for up to a week, while
hard-dried fish (keeping fish in salt for several weeks) keeps for several months.
c. Salting
Salting is a simple food preservation method that can be used to prolong the shelf
life of food for a few days. When added to foods, salt takes out moisture and retards
microbial growth and replication.
d. Boiling
Boiling of foods kills food microbes. Perishable foods can be boiled, cooled and
kept in clean containers and then used within a day.
1.11.2. Food storage
Storing food in the right way can be a great help in ensuring a household’s food
security. Food storage broadly refers to the different means through which food can
be kept for longer periods without the food spoiling. The shelf life of a food is the
length of time a food remains safe and fit for human consumption. It is essential to
store food properly to ensure the following: food remains in good condition for as
long as possible. Food is protected from flies, dust and other organisms that can
spoil and/or contaminate food. Food is protected from organisms like insects and
rats that eat and spoil food.
a. Category of foods
Foods should be stored differently on the basis of how fast they will spoil. Foods
can be categorized into 3 groups:
• Perishable foods (e.g., eggs, milk, and cream, fresh meat and raw fish) have
the shortest shelf life and must be used within a few days. These should be
stored in a clean cool place. In the absence of refrigerators, such foods can
be placed in clean containers, saucepans or pots. The containers can then
be placed in a basin of cold water covered with a clean piece of cloth. In all
circumstances, milk and meat should be consumed within 2 days.
• Semi-perishable foods (e.g., bread, cakes, grain, fresh fruit and vegetables):
Breads and cakes should be stored in a bread bin or tin. Fruit and vegetables
may be stored in a rack or basket. When put in storage, care should always
be taken to remove and discard the particular foods that start showing signs
of spoilage so as to avoid cross-contamination.
• Non-perishable foods: e.g., dry, bottled and tinned foods can be stored in a
cupboard on their own or in airtight containers.
The recommended storage conditions for foods often vary; the variations even
differ for the same foods depending on the freshness or dryness of the particular
food. The following are the further food categories and their storage methods:
b. Storage of cereals, bread, flour, and rice:
Bread needs to be stored in its original package at room temperature. It should
be used within 5 to 7 days or else it will grow moulds (a sign of spoilage). Cereals
- depending on the quantities and level of dryness - may be stored at room
temperature in tightly closed containers to keep out moisture and insects. Properly
dried cereals packaged in sacs can be stacked on racks in a dedicated food store.
Due attention should be taken to keep out rats that normally feed on stored food.
Grain raw rice can be stored in closed containers at room temperature and used
within one year. Once cooked, rice should be eaten immediately in the absence of
refrigeration.
c. Storing fresh vegetables:
Proper storage of fresh vegetables helps to maintain their quality and retain nutrient
value. Most fresh vegetables need to be stored under low temperatures in areas
which are neither humid nor damp. If available, fresh vegetables can be stored in
a clay pot fridge.
d. Storing fresh fruits:
All fresh fruits generally need to be stored in a cool area, preferably in a clay pot
fridge. Fruits have a tendency to either be contaminated by other foods and or to
absorb odors from other foods. They therefore need to be kept separately.
e. Storing milk and milk products:
Milk is a highly perishable food and yet very nutritious. To prolong its shelf life, milk
should never be left at room temperature for a long time as it spoils quickly. Care
must be taken to keep milk in clean covered containers that should be left to stand
in a cool place. Unrefrigerated milk should be used within a day.
f. Storing meat and fish:
Meat (including poultry), fish, eggs and milk are the best sources of proteins in
the human diet. Given their high protein and moisture content, these products are
highly perishable. It is for this reason that these products will spoil faster than others
- however well prepared and stored. One big contributor to the faster spoilage of
fresh cuts of meat is the fact that these usually contain spoilage bacteria on the
surface that can grow quickly, producing slime and causing spoilage after a few
days. Meat should be prepared and eaten within 24 hours of purchase/slaughter.
Thinly cut pieces of meat are more susceptible to spoilage given the larger surface
area for bacterial action. Meat and meat products should be used within a few days.
If the meat cannot be used within a day, it is advisable to dry, smoke or salt it before
storing it
Like meat, fresh fish should be eaten immediately. Never store fish in water as this
leads to loss of nutrients from the fish. In order to store fish for longer, it should be
smoked.
g. Storing Root Tubers (Cassava, Sweet Potatoes):
Most root tubers may not be stored well for long after harvest; however, root tubers
keep longer than other vegetables, fruits, meat, milk, etc. When tubers will not be
prepared within a few days, care should be taken to avoid bruising them.
Cassava tubers can also be piled into plenty and watered daily to keep them fresh
or coated with a paste of mud to preserve their freshness. They can keep for about
4-7 days.
Un-bruised sweet potatoes can be kept in a cool, dry place for up to 4-7 days. Care
should be taken to remove any developing buds.
Self-assessment 1.11
1. Describe 4 simple household food preservation techniques
2. Explain the storage methods of the following food categoriesa) Storage
of cereals, bread, flour, and rice; (b) Storing fresh vegetables (c) Storing
fresh fruits (d) Storing milk and milk products (e) Storing meat and fish (f)
Storing Root Tubers (Cassava, Sweet Potatoes).
1.12. Food habits
Learning activity 1.12
Observe the pictures below:

As humans need to fit into society, it follows naturally that people often adopt a
dietary practice to demonstrate a sense of belonging. For example, people of the
African diaspora may choose to eat African foods on certain occasions or at parties
as an expression of ethnic identity. Food can be linked to status, and this is plainly
seen when people’s dietary habits change as they move up the socio-economic
hierarchy. They tend to go beyond mere consumption of basic essential items
for survival to the purchase and intake of more expensive and indeed unusual
forms of diet that are prestigious and can adequately “match” their status. Foods
that are considered within their own culture as “food for the poor” are consciously
excluded from the daily diet as these could “taint” their achieved social position. In
general, eating with particular people connotes social equality with those people –
many societies regulate who can dine together as a means of establishing class.
Moreover, a gendered dimension is seen in some cultures where women and
children eat apart from men.
1.12.1.Conservatism of Cuisine
Another aspect of the culture-food interaction is the concept of “conservatism of
cuisine.” Although what people eat is based in part on what has traditionally been
available to them, food habits are also culturally defined. Thus, some food items,
although edible and nutritious, remain taboo among certain population groups. In
essence, what determines consumption of a particular food is not only its availability
(and our ability to purchase it) but, importantly, its cultural acceptability
Food preferences, while sometimes purely personal, are strongly determined by
culture and tradition: what is considered acceptable as food is dictated to a large
extent by cultural norms. This explains why people are often reluctant to try foods
that are unfamiliar to them and why they tend to be conservative in their choice of
cuisine.
1.12.2. Food Taboos
A food taboo refers to the act of abstaining from certain foods by reason of culture
or religion. Food taboos dictate what may or may not be eaten, and by whom, at
what periods certain foods may or may not be eaten, and which foods can or cannot
be eaten together. Cultural guidelines may also exist regarding how a particular
crop is to be harvested or how a certain type of animal is to be slaughtered, cooked,
and served. For example, in most Western cultures, the idea of eating dog or horse
meat is unacceptable, as is the thought of eating insects, which are considered a
delicacy in some cultures.
Food taboos can also be tied to the reproductive cycle. Pregnant women, for
example, may be allowed to eat certain foods but not others. Cultural values and
beliefs can also affect infant feeding practices, including the practice of breast
feeding, in ways that may have either a positive or negative impact on a child’s
nutritional status. For example, in some cultures, mothers are told that a child with
diarrhoea should abstain from food in order to “cleanse” the belly. Another widely
held belief in some cultures is that colostrum is “dirty” and should be discarded, and
a baby should therefore not be suckled until the “white milk” appears.
1.12.3. Etiquette
Proper etiquette for serving and eating food also shows great variation between
different cultures. In many cultures, only the right hand may be used for eating,
because the other hand (the left) is, culturally, not suitable, as it is designated for
sanitation purposes. While meals must be eaten silently in some cultures, in others
mealtimes are looked forward to as a period for family discussion and interaction. In
considering all these possibilities, it should be accepted that there are no absolute
right or wrong food habits, as conclusions can only be made within the perspective
of one’s own culture – provided that the food habits in question are of nutritional
benefit to the consumers.
Self-assessment 1.12
1. What does a food taboo refer to?
2. Give 2 examples of food etiquette
1.13. Factors affecting the choice of food
Learning activity 1.13
Observe the following pictures and answer the questions mentioned below

1. What do pictures A and B communicate to you?
2. How would you organize your meal plate in order to be healthy?
3. Use library books of nursing nutrition or internet and write short notes on the
physical/environmental, physiological, social, economic, psychological,
religious and cultural factors influencing food choices
Why do people eat what they eat? Food is necessary to sustain life and health, but
people eat certain foods for many reasons other than good health and nutrition,
although these are important factors. Eating behaviors develop from cultural,
societal, and psychological patterns. These patterns, reflecting food habits that
have been transmitted from preceding generations, are the heritage of any given
ethnic group. They may be influenced by interactions with other groups, so that
some intermingling of patterns is inevitable, but modifications are worked into
the total structure over long periods of time and are acceptable only if they fit the
existing customs.
Food patterns reflect a people’s social organization, including their economy,
religion, beliefs about the health properties of foods, and attitudes about family.
Great emotional significance is attached to the consumption of certain foods.
1.13.1.Biological food needs
The biological food needs of a person throughout the life cycle have one requirement.
The food consumed must provide essential chemical substances – nutrients which
the body can digest, absorb, and metabolize. To maintain life and health, the
nutrients must reach the cells.
Adequate nutrient intake depends on many factors, including age, sex, activity,
size, and individual variations. The amounts of required nutrients may vary, but the
types and kinds of nutrients established as being essential to life and health will
remain the same throughout life. Research may add other, as yet unrecognized,
essentials as scientific investigation progresses.
1.13.2. Cultural development of food habits
Each particular society that identifies itself with a common denominator (e.g.,
ethnicity, religion, geographic location, and lifestyle) has its own unique cultural
food pattern.
Culture involves much more than the major and historic aspects of a person’s
communal life (e.g., language, religion, politics, location). It also develops from all
of the habits of everyday living and family relationships, such as preparing and
serving food. In a gradual process of conscious and unconscious learning, cultural
values, attitudes, customs, and practices become a deep part of individual lives.
Although part of this heritage may be revised or rejected as adults, people are
ultimately responsible for shaping their own lives and passing traditions on to the
subsequent generations as they see fit.
Food habits are among the oldest and most deeply rooted aspects of a culture. An
individual’s cultural background largely determines what is eaten as well as when
and how it is eaten. All types of customs, whether rational or irrational or beneficial
or injurious, are found in every part of the world. Many foods take on symbolic
meanings related to major life events (e.g., birth, death, weddings). From ancient
times, ceremonies and religious rites involving food have surrounded certain
events and seasons. Food gathering, preparing, and serving have followed specific
customs, many of which remain intact today.
Many different cultural food patterns are part of family and community life. These
patterns have contributed special dishes or modes of cooking to people eating
habits. Older members of the family use traditional foods more regularly, with
younger members of the family using them mainly on special occasions or holidays.
Nevertheless, traditional foods have strong meanings and bind families and cultural
communities in close fellowship. Individual tastes and geographic patterns will vary,
but general food patterns are connected with culture and have a strong influence
on how people eat.
Assumptions about dietary patterns cannot be made, but knowledge of the variety
of unique traditional foods provides a rudimentary understanding of the range of
possible food choices. Such an understanding of various cultural food patterns is
valuable when providing dietary guidance as a health care professional.
1.13.3. Religious Aspects
Food plays different, important roles in many religious faiths and practices. These
roles are usually rigid and tenaciously held by the adherents of the faiths. Then again,
these roles may vary within a faith or philosophy. For instance, most Buddhists are
vegetarians so as to avoid killing animals. Some Buddhists avoid meat and dairy
products, while others only avoid beef.
Many Hindus are vegetarian but this is not obligatory. Muslims follow a list of
foods that are allowed (halal, Arabic for “permitted” or “lawful”) and those that are
prohibited (haram), such as pork and alcohol.
Christian practices vary by denomination and sect. While Catholic and Orthodox
Christians observe several feast and fast days during the year, most Protestants
observe only Easter and Christmas as feast days and don’t follow ritualized fasting.
Some Christians do not drink alcohol, including many members of various Protestant
churches. Seventh Day Adventists avoid both caffeinated and alcoholic beverages,
and they are vegetarians.
1.13.4. Social effects
In any society, social groups are largely formed by factors such as economic status,
education, residence, occupation, and family. Accordingly, values and practices
differ among groups. Subgroups also develop on the basis of region, religion, age,
sex, social class, health issues, special interests, ethnic backgrounds, politics, and
other common traits such as group affiliations.
Food habits, like any other form of human behavior, are gradually established with
influences from every direction.
Food is a symbol of acceptance, warmth, and friendliness in social relationships.
People tend to accept food or food advice readily from friends, acquaintances, and
people who they view as trusted authorities. This guidance is especially strong in
family relationships.
Food habits that are closely associated with family sentiments often stay with
people throughout their lives. During adulthood, certain foods may even trigger a
flood of childhood memories and are valued for reasons apart from any nutritional
importance.
1.13.5. Psychological influences
Understanding dietary patterns begins with the recognition of the psychological
influences that are involved. Many of these psychological factors are rooted in
childhood experiences. For example, when a child is hurt or disappointed, parents
may offer a cookie or a piece of chocolate to distract the child. Then, when adults
feel hurt, they may turn to similar comfort foods to help them cope. Certain foods,
especially sweets and other pleasurable flavors, stimulate “feel good” body
chemicals in the brain called endorphins that give a mild “high” that may actually
help ease pain.
1.13.6.Food and psychosocial development
From infancy to old age, emotional maturity grows along with physical development.
At each stage of human growth, food habits are part of both physical and psychosocial
development. For example, a 2-year-old toddler who is taking his first steps toward
eventual independence from his parents may learn to control his parents through
food by refusing to eat at meal times or otherwise being a demanding eater.
Psychologists believe that food neo-phobia may also be involved. This normal
developmental trait may be an instinct from the evolutionary past that protected
children from eating harmful foods when they were just becoming independent from
their mothers.
1.13.7. Marketing and environmental Influences
Food habits are also manipulated by television, radio, magazines, and other media
messages. Influences from peers, availability of convenience items, marketing
at the local grocery store, and many other factors of persuasion may sway the
decision-making process for food choices throughout life. Advertising strategies
that make use of brand mascots and cartoon media characters on food packages
greatly impact children’s eating patterns by increasing the preference for products.
Marketing trends and media also influence what a culture views as beautiful and
such provocations may dictate food choices, meal composition, lifestyle, and bodyimage expectations.
1.13.8.Economic Influences
Economics is a very strong factor in the determination of food consumption. The
costs of producing, transporting, and distributing food determine how much and
what types of food are available. Lack of money affects not only the prices that
people can pay for food but also the kinds of storage facilities they can afford
to have within the household. Poor people often must buy cheap foods in small
quantities and purchase items that do not require special storage facilities such as
freezers or refrigerators.
The cost of transportation may prohibit going to a large market, where volume
purchases permit cheaper prices. Poverty is sometimes classified as a subculture
in our society, and different attitudes and adaptations about foods emerge from
this class than those found in the middle or upper classes. Nurses should have an
extensive knowledge of these differences.
Self-evaluation 1.13
Analyze your eating patterns. Be as objective as possible. Answer the following
questions about your behaviors.
1. What are the determining factors in the way you eat?
2. What are the determining factors in the amount you eat?
3. What determines your likes and dislikes?
1.14. Protein-energy malnutrition
Learning activity 1.14
See the following images and attempt the questions that follows

1. Differentiate the persons in picture A and B based on their physical
characteristics?
2. Describe the hair of the person in Picture B
3. What do you expect to learn from this lesson?

1.14.1. Introduction
An appropriately nourished individual is well equipped to resist disease, recover
from illness, reach an optimal fitness level and enjoy a better quality of life.
Malnutrition is a common problem worldwide. Malnutrition encompasses the
inadequacy of any nutrient in the diet. It includes under–nutrition (in people with
a limited or restricted food intake) and over-nutrition associated with excessive
food intake.
The consequences of malnutrition include an increased risk of diseases and
death, poor productivity of the malnourished individuals as well as poor academic
performance and loss of attendance of children from school. Other consequences are
poverty perpetuation (a vicious circle) and an intergenerational cycle of malnutrition.
Death from protein-energy malnutrition and other nutritional deficiencies occurs
within 60 to 70 days of total starvation in normal weight adults, but over a shorter
period of time in those who are already malnourished. Depletion of nutrient stores
also occurs more rapidly in the ‘metabolically stressed patient’.
1.14.2.Protein-energy malnutrition
Protein-energy malnutrition (PEM) is the inadequate intake of protein, mainly seen
in developing countries. Within a hospital setting in developed countries, protein
energy malnutrition may be due to poor nutritional intake in alcohol misusers or in
those suffering from anorexia nervosa. It may be seen in some conditions, because
of an inability either to adequately absorb nutrients, such as with Coeliac disease,
or to utilize that which is absorbed, such as in cirrhosis. Protein loss can occur
following excessive losses of protein in the urine, such as in nephritic syndrome or
other renal disorders, and in acute surgical trauma or burns, owing to catabolism.
Finally, increased utilization and therefore protein intake requirements occur in
fevers and hyperthyroidism.
Malnutrition can occur in the hospital setting, particularly in older patients who are in
hospital for a number of weeks, owing to poor attention to their nutritional needs, for
example lack of nutrition screening, food left out of the patient’s reach, not providing
appropriate assistance to eat or drink etc.
Kwashiorkor and Marasmus are serious diseases of Protein Energy Malnutrition
(PEM) which develop in young children between 1-3 years of age. They are due to
(a) an inadequate diet, that is a diet lacking in proteins and calories and (b) Infections
such as diarrhea, measles, bronchitis which lead the child into malnutrition.
1.14.3. Kwashiorkor
Kwashiorkor is a form of malnutrition caused by protein deficiency in the diet,
typically affecting young children.
a. Causes of Kwashiorkor
The main cause of kwashiorkor is not eating enough protein or other essential
vitamins and minerals.
b. Sign and symptoms
The Signs and symptoms of kwashiorkor are: change in skin and hair color (to
a rust color) and texture, fatigue, diarrhea, loss of muscle mass, failure to grow
or gain weight, edema (swelling) of the ankles, feet, and belly; damaged immune
system, which can lead to more frequent and severe infections; irritability; flaky
rash and shock.
c. Prevention and treatment
Prevention, is mainly done through health education of the parents about nutrition
and breastfeeding; exclusive breastfeeding for the first 6 month is the best; children
should breastfeed up to at least 2 years and the food is introduced slowly from
6 months starting from the soft ones; Immunization, family planning and early
treatment of any disease.
Curative:
a) Hospitalization.
b) Rehydration: by oral fluids & solution to maintain electrolytes. In severe cases
blood transfusion (10ml/kg) may be prescribed.
d. Complications
Kwashiorkor results in: muscle wasting, a low serum albumin resulting in peripheral
edema (which may make the muscle wasting less obvious) and fatty liver with
hepatomegaly. There is also a reduction in immunity and infections may also be
present. It is usually seen in children and so there is also growth retardation. All
these features are reversible with an adequate protein intake:
1. Secondary immune deficiency.
2. Sever water & electrolytes disturbances.
3. Hypoglycemia.
4. Hypothermia.
5. Heart failure: due to severe anemia, septicemia or due to over hydration
during treatment.
6. Bleeding tendency: due to low vit. K.
7. Blindness due to sever vit.A deficiency.
8. Mental retardation: if Kwashiorkor occurs before 6 months of life.
1.14.4.Marasmus
Definition
It is due to both protein and energy deficiencies; it can occur in anyone with severe
malnutrition but usually occurs in children.
Clinical manifestations: it is characterized by the classic features of starvation,
including: growth reduction, absence of body fat (loss of sub-cutaneous fat, and
marked wasting of muscles (the child is reduced to “skin and bones”).
Treatment:
1) Preventive: as mentioned in Kwashiorkor.
2) Curative:
• Treatment of causes. b) Treatment of complications.
• Diet: Increase calories & protein (of high biological value).
• Increase vitamins & minerals. Vegetables & fruit.
• Parental fluid & blood transfusion.
• Antibiotics & anti diarrhea drugs.
Complications:
• Hypothermia.
• Hypoglycemia.
• Infection.
• Gastro enteritis & dehydration.
• Edema: Marasmic Kwashiorkor.
• Bleeding tendency
• Congestive heart failure.
1.14.5.Marasmus Kwashiorkor
Definition: This form of edematous Protein Energy Malnutrition (PEM), combines
clinical characteristic of Kwashiorkor and Marasmus.
Clinical signs
The main features are the edema of Kwashiorkor, with or without its skin lesions,
and muscle wasting, loss of subcutaneous fat of Marasmus. Biological features
of both Marasmus and kwashiorkor are seen, but alterations of severe portion
deficiency usually predominate.
Kwashiorkor and marasmus affect not only the physical growth but also mental
development of the child. They can also cause death.
Protein Energy Malnutrition need to be prevented by means of:
• Proper antenatal care of mothers, because a healthy mother give birth to a
healthy baby.
• Promotion of breast feeding.
• Proper weaning of the child.
• The child should be given nutrition supplement starting around the age 6
months as breast milk alone is not sufficient to sustain the growth of the child.
Nutritional supplements can be easily prepared at home using low-cost foods
that are locally available. They are foods such as cereals, millets, ground nuts
and sugar. Proper use of these supplements helps in preventing malnutrition
during the weaning period.
• Nutrition education of the mother.
• Immunization of the child against child hood diseases.
• Food hygiene practices to prevent infections.
• Economic development to decrease poverty.
• Improved environmental sanitation.
• Nutrition and health education.
• Family planning.
Main three lines in treatment of Protein Energy Malnutrition (PEM):
1) Rehydration 2) Medication 3) Provide of adequate nutrition.
Nursing care plan to PEM:
Nursing diagnosis:
1. Imbalanced nutrition less then body requirements related to lack of parents
knowledge, economic factors, and inability to absorb nutrition or inadequate
food intake.
2. Deficit fluid volume related to diarrhea & vomiting.
3. Subnormal body temperature caused by loss of body heat related to loss
subcutaneous fats.
4. Risk for infection related to malnutrition, decrease immunoglobulin.
The usual approach to treatment
1. First phase is the stabilization phase (24-48 Hours): correction of dehydration
and antibiotic therapy to control infection
2. Second phase (an additional week to 10 days): continued antibiotic therapy
And initial diet administration: to provide maintenance requirements of
energy and protein (75 cal/ kg/24hrs and 1 gm /kg /24hrs). Lactose free milk
may be initially given, followed by humanized milk. Correct the electrolyte &
vitamin deficiency
3. Third phase: The child’s appetite is returning and the infections are usually
under control. A diet provide up to 150 kcal/ kg/24hrs and 4 gm /kg /24hrs
of protein. Iron therapy. Blood transfusion is required in case of anemia,
serious infection and bleeding tendency (15- 20 ml/kg).
Self-assessment 1.14
1. Differentiate Kwashiorkor from Marasmus in terms of their clinical features,
prevention and nursing management
1.15. Specific vitamin deficiencies
Learning activity 1.15
Observe the image below

Vitamins and minerals are essential nutrients in human body because they act in
concert, they perform hundreds of roles in the body. They help shore up bones,
heal wounds, and bolster your immune system. They also convert food into energy,
and repair cellular damage. Their deficiencies affect the whole-body function. Their
main food sources include vegetables and fruits, food from animals (eggs, meat,
milk, etc).
1.15.1.Vitamin A deficient
The absorption of vitamin A is related to fat absorption in the gut, and requires
protein for synthesis. Therefore, a deficiency of fat, protein or a gut-related illness
can result in vitamin A deficiency. Deficiency results in growth reduction and visual
problems. Xerophthalmia may occur in vitamin A deficiency and is characterized
by conjunctivitis, abnormal and severe dryness of the surface of the cornea and
conjunctiva.
Bitot’s spots (white, soft deposits on the conjunctiva) and night blindness may also
occur. Where a deficiency exists, there may be a reduction in immunity.
In a previously adequately nourished individual, there are usually enough stores of
vitamin A within the liver to last approximately nine months, so it is not unusual for
patients to present late in chronic illness.
Good dietary sources of vitamin A (and beta-carotene, a precursor to vitamin
A) include: carrots, oily fish, liver and liver products. They also include fortified
margarine and fat spreads, fish liver oils, dairy products (milk, cheese, cream and
butter), egg yolks, peaches, apricots and mangoes, tomatoes and red peppers and
dark-green leafy vegetables (such as spinach).
1.15.2.Vitamin B1 (thiamine) deficiency
Vitamin B1 deficiency may be seen in individuals who abuse alcohol, although it is
present in many foodstuffs, vitamin B1 is not present in alcohol. In addition, the body
does not store vitamin B1, as it is a water-soluble vitamin. Thiamine is mainly required
during the metabolism of carbohydrates, fat and alcohol. Diets high in carbohydrate
require more thiamine than diets high in fat. The deficiency is commonly known as
beriberi. ‘Dry beriberi’ refers to the development of neurological problems, such as
Wernicke’s encephalopathy (ataxia, confusion, nystagmus and sixth cranial nerve
palsy), peripheral and motor neuropathy. ‘Wet beriberi’ refers to the development
of neurological problems with additional heart failure. The problems are reversible
if sufficient thiamine is given, intravenously if necessary.
Sources of thiamine: Thiamine is not evenly distributed in cereal grains – most of
it is present in the outer ‘germ’ layer. Other good sources include: yeast and yeast
extract, wholegrain cereal foods, pork, nuts and pulses.
Many breakfast cereals are fortified with thiamine.
1.15.3.Vitamin B2 (riboflavin)
Vitamin B2 is water-soluble and is found in small amounts in many foods. However,
levels rapidly decrease under serious illness or with the intake of some drugs,
for example amitriptyline, imipramine, chlorpromazine or oral contraceptives. A
deficiency of riboflavin results in lesions on the muco-cutaneous surfaces of the
mouth (angular stomatitis, atrophic lingual papillae and magenta tongue), cracked,
bleeding lips and glossitis. Itchy perineum and hair loss may be seen. There may
also be neurological sequelae with photophobia and ataxia.
Riboflavin deficiency is often accompanied by iron deficiency – possibly as a result
of impaired absorption.
Good dietary sources of riboflavin include: yeast and yeast extract, liver and offal
meats, green, leafy vegetables, eggs, milk and dairy products and cereals and
cereal products.
1.15.4.Vitamin C (ascorbic acid)
Vitamin C is water-soluble and easily destroyed in cooking. It is biochemically active
in collagen synthesis, iron absorption and in immunologic function. Therefore, not
surprisingly, a deficiency in vitamin C, better known as ‘scurvy’, is characterized by
swollen, bleeding gums, wiry hair, anaemia and a predisposition to infections, and
easy bruising. People with poor diets devoid of fresh food, and those with increased
vitamin C requirements, such as cigarette smokers or post-operative patients, are
likely to have suboptimal levels. Owing to its role in collagen synthesis, adequate
vitamin C is essential for wound healing.
Good dietary sources of vitamin C include:
• Fruits and fruit juices (particularly citrus fruits, strawberries, kiwi fruit, berries,
currants and guava)
• Some green vegetables (such as green peppers, broccoli, cabbage and spring
greens); however, significant losses can occur during storage and cooking
Self-assessment 1.15
1. Discuss the physical characteristics of the people with the following
vitamin deficiency: Vitamin A, B1 (thiamine), B2 (riboflavin) and C
2. What are the good dietary sources of the following vitamins: Vitamin A,
B1 (thiamine), B2 (riboflavin) and C
1.16. Specific mineral deficiencies
Learning activity 1.16
See the picture A and B mentioned below:
1. Find out the types of foods displayed in picture A
2. Characterize the health status of the lady in picture B
3. What do you think may be the consequences of lacking the foods in
picture A in human body organism?
1.16.1. Folic acid
Folic acid is the parent molecule of a large number of derivatives collectively known
as ‘folates’. The role of folic acid is also known in preventing neural tube defects
in early pregnancy. In deficiency states, it causes megaloblastic anaemia, atrophic
tongue and growth retardation.
Deficiency is most likely to occur as a result of:
• Mal absorption (e.g., in coeliac disease): The use of certain drugs interferes
with folic acid metabolism (notably methotrexate to treat rheumatoid arthritis
and anticonvulsants used in the treatment of epilepsy).
• Cell proliferation: Some disease states can cause an increase in cell
proliferation (e.g., leukaemia).
Good dietary sources of folates include: liver, green vegetables, yeast extract,
pulses and some fruits (oranges and orange juice).
1.16.2.Zinc
A deficiency in zinc may occur in patients who require long-term administration of
parenteral or enteral feeding, if they have high requirements, with only standard
amounts being provided. There are very small body stores of zinc; so, problems
can arise if it is not present within the diet on a regular basis. Conditions which
predispose people to zinc deficiency are related to:
• Reduced intake (perhaps associated with an eating disorder)
• Reduced absorption/bioavailability (owing to an inhibitor, such as a highphytate diet)
• Increased losses (such as in diarrhoea or excessive vomiting)
• Increased requirement associated with growth (also in pregnancy/lactation)
and are Secondary to conditions such as alcoholism.
Deficiency results in poor hair quality and hair loss. Changes in the skin result
in crusty lesions around the nose and mouth, followed by fingers, toes and the
perineal area. The patient may go on to develop diarrhoea, mental confusion and
depression. There is also an increased susceptibility to infections, as zinc has a
critical role in immune-competence.
Zinc deficiency in childhood results in stunted growth. Zinc is also thought to play a
role in taste acuity, and a loss of taste (hypogeusia) may result from zinc deficiency.
Zinc has a critical role in protein synthesis and in structural proteins; hence, a
deficiency may impair wound healing. It has been postulated that zinc is related
to appetite, as it is not unusual to have a loss of appetite with subclinical zinc
deficiency.
Good dietary sources of zinc include: red meat, fish and shellfish, milk and milk
products, poultry, and eggs. Other sources of zinc include bread and cereal products,
green, leafy vegetables and pulses, although these all have a lower bioavailability.
1.16.3.Iron
Iron is an essential component of haemoglobin and myoglobin, with its major
function being that of carrying oxygen. Many enzymes contain or require iron,
and it is required for many metabolic processes. In contrast to other minerals, no
mechanism exists in the body to excrete iron, therefore body levels of iron are
regulated by absorption. Iron deficiency results in a reduced ability to transport
oxygen around the body. This can have many harmful effects on cardiovascular
and respiratory systems, brain and muscle function, and wound healing.
Both a deficiency and excess of iron are associated with an increased susceptibility
to infection. Iron deficiency, with or without anemia, results in a wide range of
defects in immune function.
Good dietary sources of iron include:
• Red meat, liver and offal, poultry and fish (contain smaller amounts)
• Cereal products and fortified breakfast cereals; these can contribute significant
amounts of non haem iron, but this is less well absorbed than iron from meat
products (haem iron).
• Other good sources of non-haem iron include green leafy vegetables, dried
fruit, pulses, nuts and seeds.
Having a good source of vitamin C (for example fruit or fruit juice) with foods that
contain non haem iron can enhance the absorption of iron. Tannins and phytates
can inhibit the absorption of non-haem iron.
Iron and zinc compete for absorption, which is why it can be a disadvantage for
people to self-supplement with either of these nutrients unless there is a proven
deficiency and they are under medical supervision.
Self-assessment 1.16
1. Discuss the consequences resulting from the lack of the following minerals
in human body: folic acid, zinc, and iron
2. What are the good dietary sources of (a) folic acid, (b) zinc and (c) iron
1.17. Over-nutrition conditions
Learning activity 1.17
Observe the pictures below:

1. What does each of the pictures A, B, C, and D communicate to you?
2. Identify the groups of foods included in picture A and their importance.
3. What do you expect to learn from this lesson?
Over-nutrition overview
Over-nutrition is a growing health problem globally. Obesity often coexists with
under-nutrition in developing countries and is a complex condition, with serious
social and psychological dimensions, affecting virtually all ages and socio-economic
groups.
The reproductive risks of over-nutrition or obesity include infertility or difficulty with
conception, gestational diabetes, hypertension (pregnancy-induced), premature
birth, and increased rates of caesarean section, as well as a birth weight of greater
than 4000 grams. Overweight and obesity are important risk factors for most of
the chronic disorders. Indeed, there is a strong interrelationship between many of
chronic disorders and risk factors.
Early identification by means of nutritional screening, dietary treatment, and
monitoring of obese pregnant women as part of standard prenatal care may affect
outcomes for the mother and infant.
Overweight is defined as having a BMI that is more than 25. It is related to an
excessive body weight, not necessarily excessive body fat. Muscle, bone, fat, and
water all contribute to body weight. Obesity, on the other hand, is defined as having
a BMI ≥30, a condition characterized by excess accumulation of body fat.
Overweight and obesity are important risk factors for most of the chronic disorders.
Indeed, there is a strong interrelationship between many of chronic disorders and
risk factors.
1.17.1.The Causes of Obesity
Obesity is a completely unnatural human condition. Dozens of studies from around
the world have convincingly shown that obesity is absent when people eat the
traditional diet for their region. The disorder appeared when people began to adopt
a more modern, Westernized lifestyle.
A major factor leading to obesity is reduced physical activity. This occurs as a
result of the combination of urbanization and labor-saving machinery. A few decades
ago, the majority of people in developing countries lived in villages and engaged in
agricultural work or other occupations that require much physical labor. Over recent
decades, many tens of millions have relocated to cities. Most jobs today require far
less expenditure of energy. At the same time, thanks to the availability of cars and
buses, people today typically walk much less than people used to.
Another major cause of obesity is the widespread availability of highly palatable,
energy-dense food (i.e., high quantity of kcal per gram). A large amount of
accumulated evidence demonstrates how such food leads to excess intake of food
energy – in other words, over-nutrition. Such foods have four key features: a high
fat content, high refined sugar content, low fiber content, and a high energy density.
These features of the modern, Western diet should not be viewed singly: they act
synergistically.
Let us start with dietary fat. The majority of human studies indicate that a high-fat
diet induces excessive energy intake and hence weight gain. The next heavy factor
in the obesity epidemic is sugar. In particular, sugar-sweetened beverages have a
similar effect on energy balance as does dietary fat: consuming these drinks leads
to spontaneous overconsumption of food. With respect to weight control fruit juices,
as far as is known, have no advantage over soft drinks.
Another important dietary component with respect to obesity is fibre. Fibre has the
opposite action in the body of sugar and fat; the presence of fibre in foods tends to
induce satiation (a feeling of fullness), thereby bringing about a halt to eating. This
can be illustrated by comparing a slice of whole wheat bread, a slice of white bread,
and 170 mL of cola drink (about half a tin). They each have 170 kcal. Compared
with whole wheat bread, the white bread has only half as much fiber, and cola is
lacking of fiber altogether. This difference is clear when these foods are eaten:
white bread can be eaten more quickly than whole wheat bread and produces less
satiation. The cola can be consumed even more quickly and produces minimal
satiation.
The role of fiber in retarding the development of obesity is supported by strong
epidemiologic evidence. Detailed comparisons have been made between the
satiating effects of the major components of food. In general, fat has the least
satiating action, next is carbohydrate, then protein, while fiber has the most.

An important factor that determines the satiating ability of a particular food is its
energy density. Foods with more concentrated energy (more kcal per gram) have
less satiating power (i.e., little appetite satisfaction relative to energy consumed),
and they are therefore more likely to lead to overconsumption of food energy. This
may be a major reason why food fat causes weight gain: because fat has more
than twice as much energy per gram as either protein or carbohydrates, fat-rich
foods tend to be energy dense. Conversely, foods with high water content have a
low energy density and can therefore satiate the appetite before much food energy
has been consumed. Many types of fruit and vegetables, such as apples, melon,
carrots, and cabbage, have high water content and are therefore particularly good
at satisfying the appetite.
We can summarize as follows: Doughnuts and biscuits (cookies) are a mixture of
fat, sugar, and refined flour, with a minimal content of water and fiber. They are the
type of food that readily causes people to overeat and become overweight. In stark
contrast, no one ever became overweight by eating too many carrots or by drinking
too much tomato soup!
One more factor deserves mention in a discussion of the causes of obesity is portion
sizes. These have been steadily expanding for the past 40 years. For example,
plates in restaurants are significantly larger now than they were a few decades ago.
In the case of bottle sizes for cola drinks, these are now three or four times larger.
This is potentially important because evidence shows that when people have more
food placed in front of them, they eat more. This problem appears to be additive
when combined with increased energy density.
An accepted wisdom concerning obesity is that most people who try to lose weight
fail, and of those that do lose weight, most regain it. By comparison, avoiding obesity
in the first place is a much easier goal to accomplish.
1.17.2.Complications of Obesity
Obesity significantly increases mortality and morbidity. It is associated with a wide
variety of comorbidities, including diabetes, hyperlipidemia, fatty liver disease,
obstructive sleep apnea, gastro-esophageal reflux disease, vertebral disk disease,
osteoarthritis, and increased risk of certain cancers. Abdominal obesity, part of
the metabolic syndrome, increases the risk of coronary heart disease and type
2 diabetes. Obesity increases the risk of complications during and after surgery
and the risk of complications during pregnancy, labor, and delivery. Higher body
weights are associated with higher mortality from all causes. Obesity increases the
risk of complications during and after surgery and the risk of complications during
pregnancy, labor, and delivery. Higher body weights are associated with higher
mortality from all causes.
Obesity presents psychological and social disadvantages. In a society that
emphasizes thinness, obesity leads to feelings of low self-esteem, negative self
image, depression, and hopelessness Negative social consequences include
stereotyping; prejudice; stigmatization; social isolation; and discrimination in social,
educational, and employment settings.
1.17.3.The Treatment of Obesity
A lifestyle approach that includes nutrition therapy, physical activity, and behavior
modification is the basis of comprehensive weight management. Pharmacotherapy
and surgery may be used in conjunction with lifestyle interventions, based on the
individual’s body mass index (BMI) and the presence of comorbidities.
Attempts to lose weight (i.e., body fat) usually achieve little success. It is important
that people wishing to lose weight have realistic goals. An appropriate goal is to
lose between 200 and 900 grams per week, or 10% of body weight over 6 months.
Setting more ambitious goals is a recipe for disappointment. Moreover, rapid weight
loss increases the probabilities of later regaining the weight. Many overweight people
dream of achieving a shape that requires losing 30% of their weight. When they fail
to achieve this, they feel they have failed. In reality, losing 10% of body weight is a
success because it results in significant improvement to long-term health, such as
a decrease in blood pressure or blood cholesterol, or an improvement in ability to
walk quickly.
The first step in losing weight is the adoption of an energy-reduced diet. An
appropriate target is to cut energy intake by 500 to 1000 kcal per day.
It is of prime importance to recognize the major causes of obesity and put these
into reverse. In other words, a person should follow a healthy lifestyle that includes
a diet that has a generous content of fiber-rich foods, is moderate in fat, is low
in sugar, and has a low energy density.
Exercise is especially important. There is much evidence that achieving weight
loss – and long-term avoidance of weight regain – requires around 60 or 90 minutes
of exercise every day, such as walking at a brisk pace. If the intensity is greater,
as in the case of jogging for example, then the time required is reduced to 30
to 45 minutes per day. One of the secrets for losing weight is to engage in high
levels of physical activity (approximately 1 hour per day), eating a low-calorie, low
fat diet, eating breakfast regularly, self-monitoring weight, and maintaining a
consistent eating pattern across weekdays and weekends. Moreover, weight
loss maintenance may get easier over time; after individuals have successfully
maintained their weight loss for 2 to 5 years, the chance of longer-term success
greatly increases.
Here are additional rules that are helpful for people trying to lose weight:
1. Eat small portions.
2. Eat breakfast every day.
3. If a person wishes to have sweet-tasting beverages, then replace sugar with
synthetic sweeteners.
4. Avoid buying foods that encourage overeating, and don’t have the “wrong”
foods easily accessible. If you can’t resist chocolate, then keep chocolate
out of easy reach.
5. Stay away from buffets or other locations where overeating is made easy.
6. Try to identify factors that trigger overeating. For example, many people
react to stress by overeating. Reducing stress is one example of changing
behavior so that overeating is avoided.
7. Buy a pedometer. These devices count the number of steps walked. An
appropriate goal is 10,000 steps per day.
8. Join a group that actively supports weight loss, increased fitness, and
healthful eating. This could be, for example, a commercial organization or a
group of friends.
9. Eating at regular, frequent intervals may help prevent extreme hunger and
reduce the risk of binge eating. Meal patterns should be individualized.
10. Measure weight frequently,
11. Watching TV for a limited period of time,
12. Nletting a small weight gain become a big weight gain, and
13. Pharmacotherapy is adjunctive therapy in the treatment of obesity. Drugs
are not effective in all people, and they are only effective for as long as they
are used.
14. Surgery to promote weight loss therapy involves limiting the capacity of the
stomach. Gastric bypass also circumvents a portion of the small intestine to
cause mal absorption of calories. Both types effectively promote weight loss
but are tools, not magic strategies.
15. Bariatric surgeries require lifelong changes in eating behaviors to ensure
continued success. The postsurgical diet progresses from clear liquids to
pureed food to a soft diet. Small, frequent meals are necessary to avoid
overstretching the pouch. Sugars are avoided to decrease the risk of dumping
syndrome. Nutritional deficiencies are a lifelong risk, requiring preventative
supplementation.
16. Perhaps most important of all: be determined!
Self-assessment 1.17
1. What are the complications that result from obesity?
2. Discuss the dietary management of obesity?
1.18. Assessment of nutritional status of a client
Learning activity 1.18
Observe the pictures below:

Nutritional assessment is a systematic process used for collecting client’s nutrition
information, interpreting them in order to make decisions about the nature and cause
of nutrition related health issues that affect the person. Nutritional assessment
focus on the interpretation of anthropometric, biochemical (laboratory), clinical and
dietary data to determine whether a person or groups of people are well nourished
or malnourished (over-nourished or undernourished). Nutritional assessment can
be done using the ABCD methods. These refer to the following:
A: Anthropometry; B. Biochemical methods; C: Clinical methods; D: Dietary methods
The type of data needed for health and diet history is subjective and involves
interviews and food records. The accuracy of both approaches depends on the
skill of the interviewer and the client’s memory, perception, and cooperation. It
is important that the interviewer learn something about the client’s life and the
factors that influence his or her eating habits (such as money, storage facilities,
transportation, and ethnicity).
1.18.1.Anthropometric assessment
Anthropometry is the measurement of the size, weight, and proportions of the body.
Common anthropometric measurements include weight, height, MUAC, head
circumference, skinfold and body mass index (BMI).
a. Weight
Weighing is usually the first step in anthropometric assessment and a prerequisite
for finding weight-for-height z-score (WHZ) for children and BMI for adults. Weight
is strongly correlated with health status. Unintentional weight loss can mean
poor health and reduced ability to fight infection. Low pre-pregnancy weight and
inadequate weight gain during pregnancy are the most significant predictors of
intrauterine growth retardation and low birth weight.
b. Height
Measuring length or height requires a height board or measuring tape marked in
centimeters (cm). Measure the length for children who are under 2 years of age
or less than 87 cm long. Measure height for children of 2 years and older who are
more than 87 cm tall and for adults.
c. The head circumference (HC)
HC is the measurement of the head along the supra orbital ridge (forehead)
interiorly and occipital prominence (the prominent area on the back part of
the head) posterior. It is measured to the nearest millimeter using flexible, non
stretchable measuring tape around 0.6cm wide. HC is useful in assessing chronic
nutritional problems in children under two years old as the brain grows faster during
the first two years of life.
d. Mid-Upper Arm Circumference (MUAC)
MUAC is the circumference of the left upper arm measured at the mid-point between
the tip of the shoulder and the tip of the elbow, using a measuring or MUAC tape.
MUAC measurements in millimeters (mm) are more accurate than measurements
in cm. Use MUAC to measure all pregnant women and women up to 6 months
postpartum. MUAC is not currently recommended for infants under 6 months and
should not be used to assess nutritional status in people with edema.
e. Skinfold measurement
Skinfold measurement is a technique to estimate how much fat is on the body. It
involves using a device called a caliper to lightly pinch the skin and underlying fat in
several places. This quick and simple method of estimating body fat requires a high
level of skill to get accurate results. The seven skin sites for skinfold measurement
are the followings: triceps, chest/pectoral, midaxillary, subscapular, suprailiac,
abdominal, and thigh.
f. Body Mass Index (BMI)
BMI is an anthropometric indicator based on weight to-height ratio. It is used to
classify malnutrition in non-pregnant/non-postpartum adults. BMI is not an accurate
indicator of nutritional status in pregnant women or adults with edema.
BMI=Weight (Kg)/Height2 (m)
1.18.2. Clinical methods
In this part the nurse will assess clinical signs and symptoms that might indicate
potential specific nutrient deficiency. Special attention is given to organs such as
skin, eyes, tongue, ears, mouth, hair, nails, and gums. Clinical methods of assessing
nutritional status involve checking signs of deficiency at specific places on the body
or asking the patient whether they have any symptoms that might suggest nutrient
deficiency.
1.18.3.Biochemical assessment
Biochemical assessment means checking levels of nutrients in a person’s blood,
feces, urine or other tissues that have a relationship with the nutrient. Laboratory
test results provide to health care professionals useful information about medical
problems that may affect appetite or nutritional status.
Table 1.18 3 Blood tests useful for determining nutritional status
Many parameters are useful in assessing nutrition status, including anthropometric,
laboratory, physical, and historical data. These data form the basis for interpreting
nutrient needs and determining how they will be met. Each client’s individual needs
in all the areas must be considered. The Needs can change as people change—
aging, recovering from diseases, or adopting different lifestyles are some of the
important changes that require different nutritional patterns.
1.18.4.Dietary methods
Assessing food and fluid intake is an essential part of nutrition assessment. It
provides information on dietary quantity and quality, changes in appetite, food
allergies and intolerance, and reasons for inadequate food intake during or after
illness.
The first methods use is called 24-hour recall. This technique is used to quantify
or assess the average dietary intake. The patient is asked to remember in detail
every food and drink consumed along the previous 24 hours. It may be repeated
on several occasions in order to count day to-day variation in intake. The nurse will
ask the patient to remember what they ate or drank for a specified period of time
or activities.
The second method for dietary assessment is food frequency questionnaire which
provide information that establishes usual dietary intake. It is designed to obtain
information on overall dietary quality rather than nutrient composition and intake.
The food frequency questionnaire examines how often someone eats certain foods,
and sometimes the size of the portions. It consists of a list of foods and a selection
of options relating to the frequency of consumption of each of the foods listed (e.g.,
times per day, daily, weekly, monthly).
Another way to do dietary assessment is called food group questionnaire which
focus on showing clients’ pictures of different food groups (often available from
national nutrition authorities) and ask whether they ate or drank any of those foods
the previous day.
a. Weighed food records
The 7-day weighed food record is frequently regarded as the “gold standard” against
which other methods are compared, because it uses many days of recording –
which is more likely to capture the usual intake of an individual – and provides
exact measures for portion sizes. Prior to consumption, subjects or investigators
are required to weigh each item of food and drink. A detailed description of the food
(individual ingredients, brand name, method of preparation, etc.) and its weight are
recorded.
b. Estimated food records
Estimated food records are similar to weighed food records, the difference being the
way in which individuals or investigators quantify food intake. Intake is estimated,
rather than weighed, and then converted into amounts that can be used to calculate
food and nutrient intake
c. Household food surveys
A number of surveys are meant to collect information about dietary intake at the
household level. This method has been used to monitor long-term dietary intake
and provide information on food expenditure and food and nutrient intake trends
over a period of time.
Examples of questions that are used for nutrition history
1. How many meals and snacks do you eat each day?
Meals------------- Snacks-----------------
2. How many times a week do you eat the following meals away from home?
Breakfast-------- Lunch---------- Dinner
What type of eating places do you frequently visit? Fast food Diner?cafetaria
Restaurant---- other---------
3. On average, how many pieces of fruit or glasses of juice do you eat or drink
each day?
Fresh fruit-----------------juice ---------------
4. On average, how many servings of vegetables do you eat each day? ------
----
5. On average, how many times a week do you a high-fiber breakfast cereal?
------
6. How many times a week do you eat red meat (beef, lamb, veal) or pork?---
-------
7. How many times a week do you eat chicken or turkey?-------
8. How many times a week do you eat or shellfish?--------
9. How many hours of television do you watch every day?---------
Do you usually snack while watching television? Yes----No----
10. How many times a week do you eat desserts and sweets?------
11. What types of beverages do you usually drink? How many servings of each
do you drink a day?
Water---- Milk: Alcohol:
Juice---- Whole milk:---- Beer-----------
Soda------ 1%milk---------- Wine----------
Diet soda ------ skim milk-------- hard liquor---
Sports drinks .......
Ice tea-------
Iced tea with sugar------
Self-assessment 1.18
1. What are the common anthropometric measurements?
2. Identify the clinical signs and symptoms of nutritional deficiencies based
on physical examination of the following organs:
a. Skin, hair, and mucous membranes
b. Eyes
c. Abdomen
3. What are the laboratory tests and acceptable limits that are useful for
determining malnutrition problems relating to the following nutrients?
a. Carbohydrate
b. Iron
c. Calcium
1.19. Oral feeding
Learning activity 1.19
1. What do you see on pictures A and B?
2. Differentiate pictures A and B in terms of the activities that are being
performed.
3. What do you expect to learn from this lesson?
Nutrition is a basic component of health that affects a patient’s rate of recovery
from short-term and chronic illness, surgery, and injury. The lack of attention to a
patient’s nutritional status leads to malnutrition.
Associate nurse collaborates with a variety of health care professionals regarding
the nutritional health of patients and participate in nutritional screenings and
assessments. He/she also assess and help patients with feeding and identify
patients at risk for difficulty swallowing and aspiration during feeding.
Nutritional screening must be completed within 24 hours of admission to a hospital,
within 14 days of admission to a long-term care facility, or within a facility-defined
period of time in ambulatory and home care settings.
Hospitalized patients receive a number of different oral diets that require a health
care provider’s order. A therapeutic diet treats many illness and disease states. A
regular diet can be modified in two ways: quantitatively or qualitatively. Qualitative
diets include modifications in consistency, texture, or nutrients such as clear or full
liquid. Quantitative diets include modifications in number or size of meals served or
amounts of specific nutrients such as six small feedings or calorie diets. You can
supplement any diet with oral nutrition supplements. You prepare a patient so he or
she can be comfortable and not interrupted during a meal.
Helping adults with oral nutrition requires time, patience, knowledge, and
understanding. Most people eat without assistance. For other people assistance
is required to get food from the plate and into the mouth. When they are ill, many
patients require assistance either to feed themselves or, if necessary, to be fed by
another person if unable to eat independently.
Altered dentition, improperly fitted dentures, oral lesions or infections, or diseases
causing impaired digestion limit the types and consistencies of foods tolerated.
Hemiplegia, fractured arm, quadriplegia, debilitating illness, or generalized
weakness limits self-feeding ability and appetite.
Equipment for oral feeding:
• Stethoscope and tongue blade for assessment
• Washcloths and towels
• Tongue blade
• Adaptive utensils as necessary for self-feeding
• Oral hygiene supplies
Table 1.19 1 Implementation of oral feeding

Self-assessment 1.19
1. What is the rational for putting the patient in high-Fowler’s position during
oral feeding?
2. Why should the associate nurse or family talk with patient during meal?
3. What is the required equipment for oral feeding?
1.20. Nasogastric tube feeding
Learning activity 1.8
Observe the pictures below:

1. What information do you get from the above pictures?
2. Describe the activities that are being done in pictures B, C, and D
mentioned above.
3. What do expect to be the today’s lesson?
In order to help patients who are not able to swallow, a nasogastric tube is required.
Nasogastric tube feeding is a method for providing nutrients to patients who are not
able to meet their nutritional requirements orally. As a rule, candidates for enteral
nutrition must have a sufficiently functional gastrointestinal (GI) tract to absorb nutrients.
1.20.1. Indications for Nasogastric tube feeding

Indications for Nasogastric tube feeding include the following:
• Situations in which normal eating is not safe because of high risk for aspiration:
Altered mental status, swallowing disorders, impaired gag reflex, dependence
on mechanical ventilation, certain esophageal conditions (strictures, or
dysmotility), and delayed gastric emptying – inability to safely and adequately
consume oral intake.
• Clinical conditions that interfere with normal ingestion or absorption of
nutrients or create hypermetabolic states: Surgical resection of oropharynx,
proximal intestinal obstruction or fistula, pancreatitis, burns, and severe
pressure ulcers.
• Short-term feeding (< 6 weeks) with functional gastrointestinal tract
• Conditions in which disease or treatment-related symptoms reduce oral
intake: Anorexia, nausea, pain, fatigue, shortness of breath, or depression.
1.20.2.Advantages and disadvantages for Nasogastric tube
feeding
Advantages
It is easy to place and remove tube. It uses stomach as reservoir. It can use
intermittent feedings. Dumping syndrome is less likely than with naso-intestinal (NI)
feedings.
Disadvantages
It is contraindicated for clients at high risk for aspiration. It is potentially irritating
to the nose and esophagus. It may be removed by uncooperative or confused
patients. It is not appropriate for long-term use. It is unaesthetic for patient.
1.20.3. Technique of nasogastric feeding
a. Preparation
Before starting feeding procedure, the nurse will have to prepare him/herself as
follow:
• Wear clean uniform (dress or gown)
• Tie hair properly
• Remove watch and jewelry
• Wash hands
• Be aware of food reactions, its side effects and its interactions with the
treatment at hand.
• Check patient’s medical prescription
The next step will be the assessment:
• Identify the patient.
• Assess patient’s clinical status to determine potential need for tube feedings,
decreased level of consciousness, nutritional deficits, head or neck surgery,
facial trauma, or impaired swallow, patient’s ability to understand and cooperate,
physical and psychological condition.
• Assess patient for food allergies.
• Perform physical assessment of abdomen, including auscultation for bowel
sounds before feeding.
• Obtain baseline weight and review serum electrolytes and blood glucose
measurement.
• Assess patient for fluid volume excess or deficit, electrolyte abnormalities,
and metabolic abnormalities (e.g., hyperglycemia).
• Verify health care provider’s order for type of formula, rate, route, and
frequency.
• Check expiration date of feed and check for damage
The preparation of patient will focus on:
• Respect of patient’s privacy
• Evaluate the patient’s ability to understand and co-operate
• Inform and explain the patient/family: objective, procedure, etc. of care
• Get patient’s consent
Equipment
• Trolley or disinfected tray
• A container with liquid or semi liquid food at room temperature or a disposable
feeding bag, tubing, or ready-to-hang system
• 50-60mL or larger “Janet” Syringe
• Clean gloves
• Protection for the patient
• A cup of clean water to rinse the catheter
• Clean gauze / tissue to wipe the patient’s mouth, if necessary
• Stethoscope
• Kidney dish
• Enteral infusion pump for continuous feedings if applicable
• pH indicator strip (scale 0.0 to 11.0)
• Document (file) for recording the frequency and administered quantity
• Prescribed enteral formula
b. Implementation
1. Identify patient using two identifiers (i.e., name and birthday or name and
account number) according to agency policy. Compare identifiers with
information on patient’s identification bracelet.
2. Perform hand hygiene. Apply clean gloves
3. Obtain formula to administer: Verify correct formula and check expiration
date; note condition of container. Provide formula at room temperature.
4. Prepare formula for administration:
a) Use aseptic technique when manipulating components of feeding system
(e.g., formula, administration set, connections).
b) Shake formula container well. Clean top of canned formula with alcohol swab
before opening it.
c) For closed systems, connect administration tubing to container. If using open
system, pour formula from brick pack or can into administration bag (see
illustration).
5. Open roller clamp and allow administration tubing to fill. Clamp off tubing
with roller clamp. Hang container on intravenous (IV) pole.
6. Place patient in high-Fowler’s position or elevate head of bed at least 30
degrees (preferably 45 degrees). For patient forced to remain supine, place
in reverse Trendelenburg’s position.
7. Verify tube placement. Observe appearance of aspirate and note pH
measure.
8. Check gastric residual volume (GRV) before each feeding (for bolus and
intermittent feedings) and every 4 to 6 hours (for continuous feedings):
– Draw up 10 to 30mL air into syringe and connect to end of feeding tube.
– Inject air into tube. Pull back slowly and aspirate total amount of gastric
contents.
– Return aspirated contents to stomach unless volume exceeds 250mL.
– Do not administer feeding when a single GRV measurement exceeds 500mL
or when two measurements taken 1 hour apart each exceed 250mL.
– Flush feeding tube with 50mL of water
9. Before attaching feeding administration set to feeding tube, trace tube to its
point of origin. Label administration set, “Tube Feeding Only.”
Intermittent gravity drip:
– Pinch proximal end of feeding tube and remove cap. Connect distal end of
administration set tubing to feeding tube and release tubing.
– Set rate by adjusting roller clamp on tubing or attach tubing to feeding pump.
Allow bag to empty gradually over 30 to 45 minutes.
Label bag with tubefeeding type, strength, and amount. Include date, time, and initials.
– Change bag every 24 hours.
Continuous drip method:
a) Connect distal end of administration set tubing to feeding tube as in Step 10a.
b) Thread tubing through feeding pump; set rate on pump and turn on.
10.Advance rate of tube feeding gradually, as ordered.
11. Flush tubing with 30mL water every 4 hours during continuous feeding, before
and after an intermittent feeding. Have registered dietitian recommend total
free water requirement per day and obtain health care provider’s order.
12. When patient is receiving intermittent tube feeding, cap or clamp end of
feeding tube when not being used.
13. On completion of feed, flush the tube with 10-20 CC of water or until the tube
is clear (or volume as recommended on dietetic regimen). The plunger must
be used for flushing to achieve optimum flushing of the tube and prevent
blockage.
14. Close the clamp on the NG tube then disconnect the syringe and recap the
feeding port.
15. Wipe the mouth
c. Completion of the procedure
• Position the patient comfortably and appropriately
• Arrange personal effects of the patient and put them within reach.
• Thank the patient for his or her collaboration
• Eliminate waste
• Dispose of supplies and perform hand hygiene
• Provide a health education related to the patient’s health condition
• Wash hands
• Record and sign the administration of food on the monitoring document by
providing clear specifications as follows: feeding hour, administered quantity,
patient’s reactions, and possible residues.
Self-assessment 1.20
1. What are the indications for nasogastric tube feeding?
2. Within the skills laboratory, prepare the material for nasogastric tube
feeding. By using simulation mannequin (model), perform nasogastric
feeding with respect of all recommended steps.
End unit assessment 1
1) Recommendation for protein during pregnancy is:
a. 60 g daily
b. 14 g daily
c. 32 g daily
d. 75 g daily
2) It is recommended that pregnant women get at least 1000mgs/day of ...,
to help build healthy bones for mother and baby.
a. Calcium
b. Folic acid
c. Iron
d. Thiamine
3) Reduces the risk of birth defects of the brain and spinal cord; referred to
as the “neural tube”
a. Calcium
b. Folic Acid
c. Potassium
d. Fiber

4) Which supplement helps prevent anemia and supports the baby’s growth
and development
a. zinc
b. vitamin D
c. DHA
d. iron
5) Discuss the factors that influence eating habits to promote a healthy
lifestyle
6) Discuss the different nutritional disorders found in children aged less than
five years and their management
7) Explain the specific diets for management of the adolescents with
Anorexia nervosa and Bulimia
8) Explain how to prevent iron deficiency anemia to an infant?
9) What nutrients should be mostly recommeded for promoting the growth
of children
10) What will you discourage to eat or drink to a lactating Woman?
11) Discuss the food components and their sources that should be emphasized
in the diets of older Adults.
12) What are the causes of food insecurity?
13) Identify the general measures for preventing food spoilage
14) Describe 4 simple household food preservation technique
15) Explain the storage methods of fruits; vegetables; cereals, milk, sweet
and potatoes.
16) Discuss shortly the food habits
17) What are the cultural factors affecting food choices
18) Differentiate Kwashiorkor from Marasmus in terms of their clinical features,
prevention and management.
19) What are the clinical characteristics of the people with the following
vitamin deficiencies: vitamin A and C
20) What are the good dietary sources of the following vitamins: Vitamin A;
B1 (thiamine); and C
21) What are the good dietary sources of (a) folic acid (b) iron (c) Zinc?
22) Discuss the dietary management of obesity
23) What are the common anthropometric measurements?
24) What is the rational for putting the patient in high fowler’s position during
oral feeding?
25) What are the indications for nasogastric tube feeding?

S6: Fundamental of Nursing

General

UNIT1:HUMAN NUTRITION AND DIETETICS

UNIT1:HUMAN NUTRITION AND DIETETICS

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