Basics Of Nutrition PDF

Summary

This document provides a lesson on the basics of nutrition, including food sources of nutrients and their roles in the body. It also covers disorders associated with inadequate nutrition and strategies for combating them. It provides a detailed discussion on various macronutrients such as carbohydrates, fats, proteins, along with micronutrients like vitamins and minerals.

Full Transcript

Basics of
Nutrition

Dr. Dinusha Balasooriya
Lecturer (Probationary)
 Purpose
Provide basic nutrition information, including
food sources of nutrients, roles of nutrients in
the body, and disorders associated with
inadequate nutrition.

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 Learning Objectives
Understand the importance of nutrition.
Identify food sources of nutrients.
Describe the roles of nutrients in the body.
Understand the causes and consequences of
undernutrition.
Describe strategies to combat undernutrition.
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 Nutrition
Food = products eaten or taken into the body that contain
nutrients for

Development, growth, and maintenance of tissues and cells
Resisting and fighting infection
Producing energy, warmth, and movement
Carrying out the body’s chemical functions

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 Essential Nutrients
Macronutrients
− Carbohydrates
− Fats (lipids)
− Proteins
Micronutrients
− Vitamins
− Minerals
Water
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 Macronutrients: Carbohydrates
Best fuel – provide energy quickly and efficiently
Two types
Simple sugars
Glucose (monosaccharide) – most common form
Fructose (monosaccharide) – found in fruits
Sucrose (disaccharide) – sources include granulated sugar, milk and milk
products

Complex carbohydrates (polysaccharides)
Starches – from flour, pasta, potatoes
– Stored in the body as glycogen
Fiber

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 Food sources
Grains, dairy products, fruits, legumes, starchy
vegetables like potatoes.

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 Dietary fibre
Dietary fibre which is mainly non-starch polysaccharide is a
physiological important component of the diet.
It is found in vegetables, fruits and grains.
It may be divided broadly into cellulose and non-cellulose
polysaccharides which include hemi-cellulose pectin, storage
polysaccharides like inulin.
These are all degraded to a greater of lesser extend by the micro flora
in the human colon
Uses?
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 Macronutrients: Fats and Oils (Lipids)

Energy-giving foods
Absorbed more slowly than carbohydrates
Fats (solids): Butter, ghee, margarine
Oils (liquids): coconut oil, Corn oil, soybean oil, peanut oil

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 Misunderstood but vital group of basic nutrients
– Maintain healthy skin
– Insulate body organs
– Maintain body temperature
– Promote healthy cell function
– Carry fat-soluble vitamins A, D, E, and K
– Are a concentrated form of energy
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 Avoiding trans fatty acids
– Created by process of making liquid oil into a solid
– Increase LDL levels while lowering HDL levels
Higher risk of coronary and heart disease, sudden cardiac
death
– Found in many margarines, baked goods and
restaurant deep-fried foods
– Food labels listing no trans fasts can still contain less
than 500 milligrams/serving
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 Essential fatty acids are those that cannot be
synthesized by humans

Dietary sources of EFA
Linoleic acid (Omega 6)
Sunflower oil, Corn oil, Soya bean oil, Sesame oil, Groundnut
oil, Mustard oil, Palm oil, Coconut oil, nuts, seeds
Linolenic acid (Omega 3)
Soya bean oil, Leafy greens, fish oil

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 Macronutrients: Proteins
Body-building foods
Form main structural components of cells
Help produce and maintain tissues and muscles
Sources
− Plants (e.g., beans, nuts, chickpeas)
− Animals (meat, fish, dairy products, Egg)

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 Proteins are complex organic nitrogenous compounds.
They also contain sulfur and some cases phosphorous and
iron.
Proteins are made of monomers called amino acids.
There are about 20 different aminoacids which found in
human body.
Of this 9 are termed “essential” as they are not synthesized
in human body and must be obtained from dietary protiens.
(histidine, isoleucine, leucine, lysine, methionine,
phenylalanine, threonine, tryptophan, and valine)

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 Functions of Proteins

Body building
Repair and maintenance of body tissues
Maintenance of osmotic pressure
Synthesis of bioactive substances and other vital
molecules

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 Manifestations
of Protein-Energy Malnutrition (PEM)
Marasmus: Severe growth failure
– Weight < 60% weight for age
– Emaciation, thinness, wrinkled skin, drawn-in face,
possible extreme hunger
Kwashiorkor: Severe PEM
– Weight 60−80% weight for age
– Swelling (edema), dry flaky skin, changes in skin and
hair, appetite loss, lethargy
Marasmic kwashiorkor: Most serious form of PEM,
combining both conditions above
− Weight < 60% weight for age

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 Micronutrients: Vitamins

Organic compounds mostly from outside the body
Do not provide energy
Fat soluble: Dissolve in lipids, can be stored, not needed
daily (e.g., vitamins A, D, E, K)
Water soluble: Dissolve in water, absorbed into
bloodstream immediately, needed daily
Sources
− Fruits
− Dark leafy vegetables
− Animal foods
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 Are complex organic substances
Normal growth, maintenance, and reproduction
Your body cannot produce all vitamins you can get those by eating a
nutritious diet.
Fat-soluble vitamins: carried in fatty parts of foods and dissolve in fats
(body stores them in fat... build up can be dangerous)
Water-soluble vitamins: dissolve in water (body does not store them)

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 Functions of Vitamin A

It is responsible for normal vision.
It contributes to the production of retinal pigments which are needed for vision
lights.
It is necessary for maintaining the integrity and the normal functioning of glandular
and epithelial issue which lines intestinal , respiratory and urinary tracts as well as
the skin and eyes.
It supports growth, especially skeletal growth
It may protect against some epithelial cancers such as bronchial cancers

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 Deficiency of vitamin A

The signs of vitamin A deficiency are predominantly
ocular. They are:

Night blindness
Conjunctival xerosis
Bitot's spots
Corneal xerosis
Keratomalacia
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 VITAMIN D

The nutritionally important forms of Vitamin D in
man are Calciferol (Vitamin D2) and Cholecalciferol
(Vitamin D3).
Vitamin D is synthesized in skin using UV rays
Available in liver, fish, egg, butter and milk

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 Functions of vitamin D and its metabolites

Intestine: Promotes intestinal absorption of calcium
and phosphorus
Bone: Stimulates normal mineralization, Enhances
bone reabsorption, Affects collagen maturation
Kidney: Increases tubular reabsorption of phosphate

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 Deficiency of vitamin D

Deficiency of vitamin D leads to:

Rickets
Osteomalacia
Osteoporosis

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 Vitamin E

Vitamin E is a fat-soluble vitamin with several forms,
but alpha-tocopherol is the only one used by the
human body.
Its main role is to act as an antioxidant, scavenging
loose electrons—so-called “free radicals”—that can
damage cells.
It also enhances immune function and prevents clots
from forming in heart arteries
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 Vitamin E deficiency

Retinopathy (damage to the retina of the eyes that can
impair vision)
Peripheral neuropathy (damage to the peripheral nerves,
usually in the hands or feet, causing weakness or pain)
Ataxia (loss of control of body movements)
Decreased immune function
Dry, flaky skin
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 Vitamin K

Vitamin K helps to make various proteins that are
needed for blood clotting and the building of bones.
Prothrombin is a vitamin K-dependent protein
directly involved with blood clotting.
Osteocalcin is another protein that requires vitamin K
to produce healthy bone tissue.

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 Vitamin K deficiency

Increased clotting time
Hemorrhage

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 Water-Soluble Vitamins
Vitamin B-Complex
Thiamin (vitamin B1)
Riboflavin (vitamin B2)
Niacin (nicotinamide, nicotinic acid, vitamin B3)
Pantothenic acid (vitamin B5)
pyridoxine (Vitamin B6)
Biotin – vitamin B7
Folic acid – vitamin B9
Cobalamin- Vitamin B12

Vitamin C
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Vitamins Dietary sources Daily dosage Deficiency

Thiamin (vitamin B1) Rice, Peas, Beans, Adult- 1.5mg BeriBeri
nuts, meat, eggs Infant-0.4mg Dry or neuritic
Children -.4-1.2 mg Wet or oedematous
Riboflavin (vitamin Green vegetables, Adult -1.5-1.8mg Angular stomatitis
B2) Grains, peas, nuts Children- 1-1.8mg Inflammation of
tongue
Thickenng of skin
Niacin (vitamin B3) Legumes, Fish, nuts, Adult- 10-20mg Pellagra
coffee, tea (Dermatitis,
Diarrhea, Dementia,
Death 29
Pantothenic acid Egg yolk, cereals, Adult- 5-10mg Dermatitis, Loss of
(Vitamin B5) legume, milk Children – 2-3mg hair, Fatty liver

Pyridoxin Yeast, cereals, Adult-1-2mg Seizure
Vitamin B6 grains, egg yolk Children- 0.6-1mg

Biotin Vegetables, Adult- 100-200mcg Hair thinning
Vitamin B7 milk,egg,meat,fish Infant-30-50mcg Skin rash, nail
changes
Folic acid Dark leafy Adult-400-500mcg Megaloblastic
Vitamin B9 vegetables, dairy Children – 100- anemia
products, egg, nuts 300mcg
Pregnant & lactating
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– 600mcg
Cobalamin Liver,meat, Adult- 3mcg Megaloblastic
vitaminB12 milk,cheese,eggs Children- 0.3mcg anemia,
pernicious anemia

Ascorbic acid Citrus fruits, Adult-75mg Scurvy
Vitamin C papaya, tomato, Children-80mg Poor dentition of
amla,green peas Pregnant and children
lactating woman- Swollen spongy
100-150mg gums

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 Micronutrients: Minerals
Inorganic compounds not synthesized by the body
Needed in very small quantities but possibly essential
Important for biochemical processes and formation of
cells and tissues
Sources
− Plants
− Animal products

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 In addition to vitamins your body also needs 15 minerals that help regulate cell
function and provide structure for cells.
Major minerals, in terms of amount present, include calcium, phosphorus, and
magnesium.
In addition, your body needs smaller amounts of chromium, copper, fluoride,
iodine, iron, manganese, molybdenum, selenium, zinc, chloride, potassium and
sodium.
Amounts needed for most of these minerals is quite small and excessive amounts
can be toxic to your body.

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 Calcium:A mineral important for strong teeth and bones and for muscle and nerve function. The major
mineral constituent of bone.
– sources: milk and milk products, fish with bones that are eaten, turnip and mustard greens, tofu,
almonds and broccoli.
Chloride: A mineral that regulates body fluid volume, concentration and acid-base balance. Balance
intertwined with that of sodium
Chromium: A mineral important in regulating blood glucose. sources: brewer's yeast, whole grains and
meats
Copper: A mineral that is important for nerve function, bone maintenance, growth, blood formation and
utilization of glucose.
– sources: organ meats, sea foods, nuts and seeds
Fluoride: A mineral that is important to dental and bone health. Greatly improves resistance to cavitites
– sources: fluoridated water, foods cooked in or containing fluoridated water, fish with bones that are
eaten, and tea
Phosphorus: A mineral essential to bone formation and maintenance, energy metabolism, nerve function
and acid balance.
– sources: meat, poultry, fish, eggs, dairy products and cereal products.
Potassium: A mineral that is essential for nerve function, muscle contraction and maintenance of normal
blood pressure. 34
 Iodine: A mineral essential for the production of thyroid hormones.
– sources: sea foods, iodized salt and foods containing iodized salt
Iron: A mineral that is an essential constituent of blood and muscle and important for the
transport of oxygen. Certain groups can be at risk of having low iron levels. These include young
children and early teens, women with heavy menses, women with multiple pregnancies, and
people with conditions that cause internal bleeding, such as ulcers or intestinal diseases.
– sources: liver, red meat, egg yolk, legumes, whole or enriched grains and dark green
vegetables.
Magnesium: A mineral found mainly inside muscles, soft tissues and bone. It functions in many
enzyme processes.
– sources: nuts, legumes, whole grains and green vegetables

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 Selenium: A mineral associated with antioxidant properties and fat metabolism. It has been claimed
to help prevent cancer and cardiovascular disease
sources: seafoods and organ meats.
Sodium: A mineral that regulates body fluid volume, concentration and acid-base
sources: table salt (sodium chloride), foods processed with table salt, milk, milk products, eggs and
seafoods
Zinc: A mineral involved in wound healing, taste sensation, growth and sexual maturation and part
of many enzymes regulating metabolism
sources: meat, liver, eggs and seafood (oysters).

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 Water

Main component of the body (60 percent of body mass)
Needed for digestion, absorption, and other body functions
Regularly lost through sweating, excretion, and breathing
Approximately 1,000 ml (4−8 cups) needed each day

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 Nutritional Anemia
Most common type of anemia
Caused by malaria, hookworm, and inadequate iron and vitamin
intake resulting in low hemoglobin levels
Affects mainly children < 5 years old and pregnant women
Detected by measuring blood hemoglobin levels

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 Effects of Anemia

Adults
– Reduced work capacity
– Reduced mental capacity
– Reduced immune competence
– Poor pregnancy outcomes
– Increased risk of maternal death
Infants and children
– Reduced cognitive development
– Reduced immune competence
– Reduced work capacity

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 Strategies
to Prevent and Control Anemia

Promote iron, folic acid, and B12-rich foods.
Treat and prevent anemia-related diseases (malaria and
worms).
Provide iron and folic acid supplements to infants and
pregnant and lactating women.
Fortify foods.
Promote vitamin C-rich foods with meals.
Discourage drinking coffee or tea with meals.
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 Iodine Deficiency Disorders (IDD)

Caused by inadequate intake of iodine
Iodine in food sources varies by geography.
– Less in highlands and mountain regions
– Leached from soil and carried to lowlands

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 Manifestations of IDD

Goiter: Enlarged neck region from overactive thyroid gland
Hypothyroidism: Dry skin, weight gain, puffy face, lethargy
from underactive thyroid
Hyperthyroidism: Rapid pulse and weight loss from
overactive thyroid
Cretinism: Mental retardation, physical development
problems, spasticity from IDD in mother during pregnancy

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 Strategies to Control IDD

Iodize salt, dairy products, and bread where where iodine is
deficient in local foods.

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 Undernutrition
The manifestation of inadequate nutrition
Common in sub-Saharan Africa
– 1/3 of all children < 5 years old underweight
– 38% of children with low height for age
Many causes
– Inadequate access to food/nutrients
– Improper care of mothers and children
– Limited health services
– Unhealthy environment

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 Conditions Associated
with Under- and Overnutrition
Vitamin deficiency disorders
– Scurvy (deficiency of vitamin C)
– Rickets (deficiency of vitamin D)
– Mental, adrenal disorders (deficiency of B vitamins)
Mineral deficiency
– Osteoporosis (deficiency of calcium)
Diet-related non-communicable diseases
– Diabetes
– Coronary heart disease
– Obesity
– High blood pressure

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Causes of Undernutrition

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 Strategies to Prevent and Control
Undernutrition
Improve household food security.
Improve diversity of diet.
Improve maternal nutrition and health care.
Improve child feeding practices.
Ensure child health care (immunization, medical
care, growth monitoring).
Provide nutrition rehabilitation.
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 Conclusions
Good nutrition is essential for health and well-being.
Daily well-balanced diets should include foods
containing essential nutrients and meeting energy
requirements.
Inadequate nutrition can lead to PEM and vitamin and
mineral deficiencies (anemia, VAD, IDD).
Nutrition interventions include improved household
food security, food fortification, vitamin and mineral
supplementation (for women and children), and
improved child feeding.

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