Nutrition and Health: Macronutrients - Lipids Lecture - AHDT 1211 Lec4

Summary

This document provides a lecture covering the topic of lipids in nutrition and allied health from International Islamic University Malaysia. It discusses classifications of fats, fatty acids, and essential fatty acids. The document provides an overview of different categories of fats and their impact on health.

Full Transcript

Nutrition and Health:
Macronutrients - Lipids
Dr Hanapi
Kulliyyah of Allied Health Sciences
CLASSIFICATION OF FAT
 The Lipids: Fats and Oils

Lipids: a family of compounds that includes triglycerides
(fats and oils), phospholipids, and sterols (cholesterol).
Fats: lipids that are solid at room temperature.
Oils: lipids that are liquid at normal room temperature.
Characterized by their insolubility in water.
Dietary fat consists primarily of triacyglycerol (98%), and
smaller amount of phospholipids and sterols.
 Fatty Terms
Triglycerides: the major class of dietary
lipids, including fats and oils.
A triglyceride is made up of three units of
fatty acids and one unit of glycerol.
Fatty acids: basic units of fat composed
of chains of carbon atoms with an acid
group at one end and hydrogen atoms
attached all along their length.
Glycerol: an organic compound that
serves as the backbone for triglycerides.
Triglyceride
Triglyceride
 Classification of Fats – Faturated and
unsaturated
Saturated Monounsaturated Polyunsaturated

Animal Fats Olive Oil Corn
Lard Canola Oil Soybean
Butter Peanut Cottonseed
Palm Avocado Safflower
Palm Kernel Sunflower
Coconut Fish Oils
Classification of Fats - Fatty Acids Chain

Vary in Carbon Chain Length
– Most naturally occurring fatty acids contain an even number
of Carbons
– LONG CHAIN: 12-24 carbons
Meat, Fish, Vegetable Oils
– MEDIUM CHAIN: 6-10 carbons
Dairy Products
– SHORT CHAIN: < 6 carbons
Dairy Products
 Saturated fatty acid

Fatty acid carrying the maximum possible number of
hydrogen atoms (having no points of unsaturation).
Saturated fats are found in animal foods like meat, poultry,
and full-fat dairy products, and in tropical oils such as palm
and coconut.
 Saturated fatty acid

The body can synthesis saturated fatty acids (i.e. Palmitic
acid (16C:0) to provide an adequate level needed for their
physilogical and structural functions.
It is neither possible nor advisable to achieve zero percent
of energy from saturated fatty acids in typical whole foods
diets.
This is RNI for dietary fat (for general adults) is set at 25 –
30% of energy.
 Unsaturated fatty acid

Fatty acid with one or more points of unsaturation.
Unsaturated fats are found in foods from both plant and
animal sources.
Unsaturated fatty acids are further divided into
monounsaturated fatty acids (MUFA) and polyunsaturated
fatty acids (PUFA).
 Monounsaturated fatty acids
Fatty acid containing one point of unsaturation, found mostly in
vegetable oils such as olive, canola, and peanut.

The monounsaturated fatty acids are important in the membrane
structural lipids particularly nervous tissue myelin.
The majority of dietary monounsaturated fatty acids is oleic acid
(18:1 n-9).
The body can synthesis Oleic acid (18:1) but we also need it
from diet
 Polyunsaturated fatty acid

Abbreviated PUFA, a fatty acid in which two or more points
of unsaturation occur, found in nuts and vegetable oils such
as safflower, sunflower, and soybean, and in fatty fish.
 Essential Fatty Acid (EFA)

Fatty acid that cannot be synthesized in the body in
amounts sufficient to meet physiological need.
Human body can make fat except these two (reason?)
Linoleic acid (the 18-carbon omega-6 fatty acid), linolenic
acid (the 18-carbon omega-3 fatty acid): polyunsaturated
fatty acids, essential for human beings.
 Essential Fatty Acid

BUT!
Human body can USE Linoleic acid (from the diet) to
make other members of the omega-6 family— such as the
20-carbon polyunsaturated fatty acid –to form arachidonic
acid
– Arachidonic acid is involved in the regulation of gene
expression.
Human body can also USE Linolenic acid (from the diet)
to make other members of the omega-3 family— such as
eicosapentaenoic acid (EPA) and docosahexaenoic acid
(DHA)
 Essential Fatty Acid

Omega-3 fatty acids, found in fish oils, offer a protective
effect on health.
– Interest in fish oils was first kindled when someone
thought to ask why the Eskimos of Greenland, who eat a
diet very high in fat, have such a low rate of heart disease.
– Blood clot formation, inflammation (e.g. arthritis, asthma),
irregular heart rhythm and cancer also seem to be
beneficially affected by DHA and/ or EPA.
 Omega-6 fatty acids

Linoleic

– Precursor to ARACHIDONIC ACID
– Found in vegetable oils and meat

LINOLEIC ARACHIDONIC
18 Cs 20 Cs
 Omega-3 fatty acids

Linolenic Acid
– Precursors of
DHA (Docosahexaenoic acid)
EPA (Eicosapentaenoic acid)

– Fish and marine foods excellent food source

LINOLENIC ACID DHA/EPA
 Trans Fatty Acid

Trans fatty acid: a type of fatty acid created when an
unsaturated fat is hydrogenated.
Hydrogenation is performed in order to increase shelf-life of
food
Found primarily in margarines, shortenings, commercial
frying fats, and baked goods.
Trans fatty acids have been implicated in research as
culprits in heart disease.
 Trans Fatty Acid

Unsaturated fatty acids are either in cis form or trans form,
depending on the way in which the hydrogen atoms are
attached to the points of unsaturation in the carbon chain.
– If the hydrogen atoms are attached on the same side of the
points of saturation, the arrangement is called cis.
– If the hydrogen atoms are attached to the different sides of
the points of saturation, the arrangement is called trans.
 Phospholipids

Important components of cell
membranes.
can serve as emulsifiers in the
body, joining with both water and
fat
Also used in foods such as
margarine, chocolate, salad
dressings, and frozen desserts to
keep the fats dispersed
Widespread in foods
Phospholipids
 Phospholipids

The phosphate end of the glycerol is “compatible” with the
intracellular and extracellular fluid
 Sterols

These includes:
– Bile acids
– Sex hormones
– Adrenal hormones
– Vitamin D
– Cholesterol
Plant and animal foods contain sterols but only animal
foods contain cholesterol. Why?
Cholesterol is made in the liver, and plants do not have a
liver.
Sterols
 Cholesterol

Part of the cell membrane
Cholesterol is a necessary component of biological
membranes. Makes the membrane more fluid.
Cholesterol is not essential
– Liver makes cholesterol with fragments of CHO, Protein,
Lipids
– Body Synthesis > Dietary Cholesterol
Dietary cholesterol is found only in animal-type foods
Recommended Dietary Intakes for Cholesterol is 300
mg/day
CHARACTERISTICS OF FAT
 Characteristics of Fats

In general, animal fat have higher melting points and are
solid at room temperature which reflects high content of
saturated fatty acids.
Plants fats have lower melting points and liquid at room
temperature, reflecting high content of unsaturated fatty
acids.
– Exception to this rule are the seed oils (e.g. coconut oil and
palm kernel oil) which are high in saturated fat.
Trans fatty acids physical properties generally resembles
saturated fatty acids.
 Characteristics of Fats

The more unsaturated fat,
the more liquid it is at room
temperature. The more
polyunsaturated the fat is
the sooner it melts.
DIGESTION, ABSORPTION AND
TRANSPORT OF FAT
 Lipoproteins

The four main types of lipoproteins are:
– Chylomicron: carries dietary fat from small intestine to body
cells
– VLDL (very-low-density lipoprotein): carries triglycerides
packaged or made by the liver to various tissues in the body.
– LDL (low-density lipoprotein): carries cholesterol (much
of it synthesized in the liver) to body cells. A high blood
cholesterol level usually reflects high LDL.
– HDL (high-density lipoprotein); carries cholesterol in the
blood back to the liver for recycling or disposal.
Absorption of fats
 Absorption of Fats

Most of the newly digested fats are absorbed into lymp as
part of a special package – the chylomicron.
A chylomicron contains an interior of triglycerides and
cholesterol surrounded by phospholipids.
Protein cover the structure. Such an arrangement of
hydrophobic (water-fearing) molecules (fatty acids) on the
inside and hydrophillic (water-loving) molecules (proteins
on the outside allows lipids to travel through the watery
fluids of the body.
Chylomicron
 Transport of Fats

Lymph: the body fluid that transports the products of fat
digestion toward the heart and eventually drains back into
the bloodstream
– lymph consists of the same components as blood with the
exception of red blood cells.
Lipoproteins: clusters of lipids associated with protein that
serve as transport vehicles for lipids in blood and lymph.
Transport of fats
FUNCTIONS OF FAT
 Functions of Lipids
Energy source - Provide calories
(9 calories per gram)
Satiety & palatability
Carry fat-soluble vitamins and
essential fatty acids
Organ padding
Insulation
Hormone synthesis
In foods - Contribute aroma and
flavor
 Functions of Fat: as Energy Source
Glycogen – minor energy storage form
– Bulky, contain a lot of water
– Less energy per gram (4 kcal/gram)
– Does not exist for longer than a few hours before being broken
down and used
Fat – major energy storage form
– Pack tightly without water
– More energy per gram (9 kcal/gram)
– Can be stored and called upon for energy at any time
 Functions of Essential Fatty Acid

Eicosanoids regulate functions such as
– Muscle relaxation and contraction
– Blood vessel dilation and constriction
– Blood clot formation
– Blood lipids
– Response to injury and infection
Fever
Inflammation
Pain
FOOD SOURCES OF FAT
 Food Sources of Fats
Dietary fats can be divided into two categories:
visible and invisible fats.
– Visible fats come from cooking oils that are plant-
based (vegetable oils) and table spreads, which
may be either plant-based (margarines) or animal
fats (butter).
– Invisible fats are natural constituents of edible
biological material ranging from cereals,
vegetables, fruits, pulses, nuts and oilseeds, dairy
products, meat, eggs or seafood (Gunstone et al.
2007).
 Food Sources of Fats
Palm oil represents the main cooking oil for most
Malaysians, as this country is a primary producer of
palm oil. Current consumption is 6.6kg per
capita/year or 17.8g/capita/day (FAO
2011).
Palm oil or palm olein has an almost equal amount
of saturated and unsaturated fatty acids as indicated
by 40% of palmitic acid (C16:0), 4% of stearic acid
(C18:0) and 43% of oleic acid (C18:1).
 Food Sources of Fats
Coconut oil is one of the major sources of SFA in the
Malaysian diet as santan is commonly used in
preparing meals.
For instance, nasi lemak, curry and cendol are
traditionally consumed foods that use santan. Santan
contains 92% of SFA with the major fatty acids are
lauric acid and myristic acid.
Appendix 3.1: The fatty acid composition of various dietary fats
and oils
Appendices 3.2a and 3.2b: Malaysian foods with significant fat
content
Appendix 3.3: local fish with varying fat contents
Fatty acids composition in fats and oils
Fatty acids composition in fats and oils
 Fat contents in Malaysian foods
The types of fish rich in EPA and DHA commonly
consumed by Malaysians are
Indian mackerel (kembung),
anchovies (bilis),
yellow-tail and yellow-stripe
tuna (tongkol),
sardines (sardin),
torpedo
scads (cencaru),
Indian and short-fin scads (selayang),
pomfret (bawal),
red snapper (merah),
King mackerel (tenggiri),
Fat contents in Malaysian foods
Fat contents in Malaysian foods
Essential Fatty Acid
Food Sources of Trans Fats
Food Sources of Trans Fats
Fat Can Be Healthy
High Fat – Low Fat
High Fat – Low Fat
How much fat to consume?
Cholesterol Content in Foods
DEFICIENCY AND EXCESS OF
FAT ON HEALTH
 Deficiencies of fats

Fat deficiency is rare
BUT can occur in individuals with malabsorption
related to inhibition of bile salts necessary for fat
digestion such as liver disease (Note: Deficiency of
the fat-soluble vitamins (A, D, E and K) would also
be adversely
Fat deficiency may also occur in malnutrition related
to chronic disease conditions where blood levels of
EFAs, mainly LA and ALA, may be below normal as
in chronic kidney disease patients
 Deficiencies of fats

Deficiency leads to:
– Growth retardation
– Skin lesions
– Reproductive failure
– Liver disorders
– Many others
 Excess intake of fats
Fat deficiency has never been an issue in the
Malaysian population.
Instead, with the abundance of cooking oil available
for local consumption, the concern is toward excess
intake.
Affordability and increased access to high-fat foods
predisposes the population to increased consumption
of energy-dense foods which coupled together with
the sedentary living would create a risk for obesity.
 Excess intake of fats

According to the National Health and Morbidity Survey
of 2015, obese Malaysians make up 17.7% of the
population while those who are categorised as
overweight make up 30%.
Despite the overwhelming tendency to associate
obesity with the percentage of fat intake, many long-
term epidemiological studies fail to provide causal
relationships between the two. Fat alone cannot
explain obesity as higher carbohydrate intakes also
contribute to the high calorie diets
 Effects Fats on Blood Lipid Levels
Saturated Fat
– Increases total cholesterol
– Increases LDL-cholesterol
Polyunsaturated Fat
– total cholesterol ?
– LDL-cholesterol ?
– HDL-cholesterol ?
– Triglycerides?
Monounsaturated Fat
– total cholesterol ?
– LDL-cholesterol ?
– HDL-cholesterol ?
– Triglycerides?
 Effects Fats on Blood Lipid Levels

Trans Fat
– Increases total cholesterol
– Increases LDL-cholesterol
– Decreases HDL-cholesterol
 Lipids and Health

Oxidized LDL-cholesterol o-LDL : the cholesterol in LDLs
that is attacked by reactive oxygen molecules inside the
walls of the arteries
– o-LDL is taken up by scavenger cells and deposited in
plaque.
Foam cells: cells from the immune system containing
scavenged oxidized LDL cholesterol that are thought to
initiate arterial plaque formation.
Free radicals: highly toxic compounds created in the body
as a result of chemical reactions that involve oxygen.
– Environmental pollutants such as cigarette smoke and ozone
also prompt the formation of free radicals.
 Lipids and Health

As LDL particles penetrate the walls of the
arteries, they become oxidized-LDL and
next are scavenged by the body’s white
blood cells.
These foam cells are then deposited into
the lining of the artery wall.
This process, known as atherosclerosis,
causes plaque deposits to enlarge, artery
walls to lose elasticity, and the passage
through the artery to narrow.
Lipids and Health
 How much Fat to consume?

Total fat intake:
– Adults = 25-30% TEI (Note: for active men and women
with normal BMI up to 35% TEI from fat is a safe
limit)
– Children and adolescents = 25-35% TEI
– Infant 0-5 months = 40-60% TEI
– Infant 6-11 months = 30-40% TEI
Saturated Fat: < 10% TEI
MUFA: 12-15% TEI
Omega 6 PUFA: 3-7% TEI
Omega 3 PUFA: 0.3-1.2% TEI
END OF SLIDES