Clinical Nutrition: Protein & Lipids Lecture PDF

Summary

This lecture covers clinical nutrition, focusing on proteins and lipids. It details the composition, metabolism, and functions of these nutrients, as well as different types of proteins (complete and incomplete). It also discusses dietary requirements and the importance of a balanced diet.

Full Transcript

Clinical Nutrition
Protein and Lipids
BY
Dr/Shimaa Abd EL-Rahim
Protein
Metabolism and deamination
Function
Classification
Food Source
Protein excess
Protein Deficiency
 Composition

Like carbohydrates and fats,
proteins contain carbon,
hydrogen, and oxygen, but
in different proportions.
In addition, and most
important, they are the only
nutrient group that contains
nitrogen.
 Pathways for protein metabolism
Three important protein pathways:

1- Protein Turnover (protein synthesis and breakdown)
2- Amino acid catabolism and deamination
3-Transamination
1- Protein Turnover
Two independent processes:
Protein synthesis (putting aminoacids together into new protein
structure)

Protein breakdown (breaking down proteins into aminoacids units)
The liver
most amino acids go to the liver
then they enter the blood stream and become part of (plasma pool of
amino acids) that used to produce important molecules such as:
enzymes
hormones
neurotransmitters
antibodies
transport protiens (carrier protein, lipoprotein)
muscle proteins
skeletal and connective tissues (bone, tendons,ligaments, cartilage)
 IF our body needs energy and no other nutrients are easily
available
it can breake down to either help create other nutrients such
as:
a. glucose
b. fatty acids
c. cholesterol
d. or keton bodies
e. or to help regenerate ATP
Protein turnover depends on
nutritional intake
exercise habits
health and illness
stress
hormonal status
genetic programming
2- Transamination
Tansfer of Amino Groups from one aminoacids to ketoacids which
results in the formation of a new aminoacid and a new keto acid

Significance of Transamination :
synthesis of nonessential aminoacid
3- Amino acid Catabolism and deamination
When amino acids are needed to form non- protein compounds or to
transfer energy to ATP,these nitogen groups must be eleminated
this process of nitrogen removal is called deamination
when amine groups break away from the aminoacids, they form
ammonia
Ammonia is very toxic to human
convert it to a nontoxic chemical urea that can safely diffuse in the
blood and for the kidneys to filter out and be excreted in the urine
The remaining parts are converted to carbohydrate or fat and stored as
glycogen or adipose tissue.
 Function of protein
The primary function of proteins is to build and repair body
tissues.(proteins form the building blocks of muscles,
blood, and skin—in fact, of most body structures)
Proteins are important components of hormones and
enzymes that are essential for the regulation of metabolism
and digestion.
Proteins also are essential for the development of antibodies
and, consequently, for a healthy immune system.
 Function of protein
Proteins help maintain fluid and electrolyte balances in the
body and thus prevent edema (abnormal retention of body
fluids).
As Acid-Base Regulators Proteins also help to maintain the
balance between acids and bases within the body fluids.
Proteins can provide energy if and when the supply of
carbohydrates and fats in the diet is insufficient
(In general, they are more expensive than carbohydrates, and
most of the complete proteins also contain saturated fats and
cholesterol)
 Proteins are the basic material of everybody cell.
An adequate supply of proteins in the daily diet
is essential for normal growth and development
and for the maintenance of health.
 CLASSIFICATION
The classification and quality of a protein depends on the number
and types of amino acids it contains.
There are 20 amino acids,
Nine amino acids cannot be synthesized in the body and, therefore,
must be present in the diet in order for protein synthesis to occur.
Eleven amino acids can be synthesized in the body itself and hence
do not necessarily need to be acquired through diet.
 Complete proteins :
Essential amino acids are necessary for normal growth
and development and must be provided in the diet.
Proteins containing all the essential amino acids are of
high biologic value; these proteins are called complete
proteins and are extremely bioavailable. (ability of a
nutrient to be readily absorbed and used by the
body)
 Incomplete protein
Incomplete proteins are those that lack
one or more of the essential amino acids.
Incomplete proteins cannot build tissue
without the help of other proteins.
 Complementary proteins
Incomplete proteins that when combined provide all essential amino
acids
The value of each is increased when it is eaten in combination with
another incomplete protein, not necessarily at the same meal but during the
same day.
In this way, one incomplete protein food can provide the essential amino
acids the other lacks.
The combination may thereby provide all the essential amino acids.
When this occurs, the proteins are called complementary proteins.
FOOD
SOURCES
The animal food sources provide
the highest quality of complete
proteins.
They include meats, fish, poultry,
eggs, milk, and cheese.
Despite the high biologic value of
proteins from animal food sources,
they also provide saturated fats and
cholesterol
 Gelatin is the only protein
from an animal source that
is an incomplete protein.
FOOD SOURCES

Proteins found in plant foods are
incomplete proteins and are of a lower
biologic quality than those found in
animal foods.
Even so, plant foods are important
sources of protein.
Examples of plant foods containing
protein are corn, grains, nuts, sunflower
seeds, sesame seeds, and legumes.
 FOOD SOURCES

Meat alternatives (analogues) made from soybeans
contain soy protein and other ingredients mixed
together to simulate various kinds of meat.
Meat alternatives may be canned, dried, or frozen.
Analogues are excellent sources of protein, iron, and B
vitamins.
 DIETARY REQUIREMENTS

One’s protein requirement is determined by size, age, sex, and
physical and emotional conditions.
A growing child, a pregnant woman, or a woman who is
breastfeeding needs more protein for each pound of body weight than
the average adult
Extra proteins are usually required after surgery, severe burns, or
during infections in order to replace lost tissue and to manufacture
antibodies.
 NITROGEN BALANCE

This occurs when nitrogen intake equals the amount of nitrogen
excreted
Positive nitrogen balance exists when nitrogen intake exceeds
the amount excreted.
This indicates that new tissue is being formed, and it occurs
during pregnancy, during children’s growing years, when athletes
develop additional muscle tissue.
Negative nitrogen balance indicates that protein is being lost. It may be
caused by fevers, injury, surgery, burns, starvation, or immobilization.
 DIETARY REQUIREMENTS

The National Research Council of the National
Academy of Sciences con siders the average adult’s
daily requirement to be 0.8 gram of protein for each
kilogram of body weight.
e.g: 55 g of protein per day for 68 Kg person
the National Research Council recommends that
protein intake represent no more than 15% to 20% of
one’s daily calorie intake
 Protein Excess
There are a number of reasons why this should be avoided
1-The saturated fats and cholesterol common to complete protein foods
may contribute to heart disease and provide more calories than are
desirable.
2-Some studies seem to indicate a connection between long-
term high- protein diets and colon cancer and high calcium excretion.
3-People who eat excessive amounts of protein-rich foods may ignore
the also essential fruits and vegetables.
4-excess protein intake may put more demands on the liver and the
kidneys.
 Protein Deficiency

When people are unable to obtain an adequate supply of protein for an
extended period, muscle wasting will occur, and arms and legs become
very thin.
Albumin (protein in blood plasma) deficiency will cause
edema, resulting in an extremely swollen appearance.
People may lose appetite, strength, and weight, and wounds may
heal very slowly.
Patients suffering from edema become lethargic and depressed.
 PROTEIN AND AMINO ACID SUPPLEMENTS

Protein and amino acid supplements are taken for a number of reasons,
such as “bulking up “by athletes, growing fingernails, and sparing body protein
in weight loss.
In weight lifting, not protein bars or protein supplements, that builds muscles.
High-quality protein foods are more bioavailable than
expensive supplements.
Single amino acids can be harmful to the body and never occur naturally
in food.
The body was designed to handle food, not supplements (Real food
approach).
 Proteins Supplements (protein powder)
1-Whey
2-Casein
3-Milk protein blend
4- Branched-chain (BCAA) supplements (particularly leucine) are
good options for clients restricting energy intake, training
fasted, and/or needing some extra peri-workout and /or post-workout
recovery.
5-Lysine supplement can reduce cold sore severity, frequency, and
healing time
Lipids
Composition and categories
Metabolisim and Elimination
Functions
Classification
Food source
Sterol
Lipoproteins
 Composition:
Fats contain Carbon, Hydrogen, Oxygen
Lipids are organic compounds
Lipids are soluble in fat
Categories of Lipids:
1. Triglycerides
2. Phospholipids
3. Sterols
Triglycerides " Fats"

Triglycerides “Fats”
Energy Yield: Fats provide 9
Calories/gram.
–Fats are the only type of lipid that
the body can convert to ATP or
produce energy from.
–Fats are the most Calorically
Dense energy producing nutrient.
 Metabolism and Elimination
The liver controls fat metabolism.
It hydrolyzes triglycerides and forms new ones from this hydrolysis as
needed.
Ultimately, the metabolism of fats occurs in the cells, where fatty
acids are broken down to carbon dioxide and water, releasing energy.
The portion of fat that is not needed for immediate use is stored as
adipose tissue.
Carbon dioxide and water are by-products that are used or removed
from the body by the circulatory, respiratory, and excretory systems.
 Function of fats
They contain essential fatty acids and act as carriers for fat-soluble
vitamins A, D, E, and K.
The fat stored in body tissues provides energy when one cannot eat, as
may occur during some illness and after abdominal surgery.
Adipose (fatty) tissue protects organs and bones from injury by
serving as protective padding and support.
Body fat also serves as insulation from cold.
In addition, fats provide a feeling of satiety (satisfaction) after meals.
This is due partly to the flavor fats give other foods and partly to their
slow rate of digestion, which delays hunger.
They provide the structure of our plasma membranes
 Fatty Acids

Categories Dietary fats are defined by the composition of the fatty
acids in the triglyceride.
1. Saturated fat food sources are comprised of mostly saturated fatty
acids (SFAs).
2. Monounsaturated fat food sources are comprised mostly of
monounsaturated fatty acids (MUFAs).
3. Polyunsaturated fat food sources are comprised mostly of
polyunsaturated fatty acids (PUFAs).
Classification of fatty acids
Monounsaturated Fats
Have 1 double bond in the carbon chain
Are healthy
Examples of foods containing monounsaturated fats are olive
oil, peanut oil, canola oil, avocados, and cashew nuts.
Research indicates that monounsaturated fats lower the
amount of low-density lipoprotein (LDL) (“bad cholesterol”)
in the blood, but only when they replace saturated fats in
one’s diet.
They have no effect on high-density lipoproteins (HDLs)
(“good cholesterol”).
It is recommended that one consume 15% of total daily
calories as monounsaturated fats
 Polyunsaturated Fats

Have >1 double bond in the carbon chain.
Some are essential for the body.
Are found in plant oils like corn, cottonseed, safflower, and sunflower
oil.
Are liquid at room temperature.
Too much can promote cancer.
The two major fatty acids are the omega-3 and omega-6 fatty acids.
 Omega- 3
Omega-3 fatty acids have been reported to help lower the risk of heart
disease.
Heart attack survivor who took a 1- gram capsule of omega 3 fates
every day for three years were less likely to have a repeat heart attack,
stroke, or die of sudden death than those took a placebo
Research on the different types of fats has spot lighted the beneficial effects
of the omega-3 polyunsaturated fatty acids in reducing the risks of heart
disease and stroke.
Regular consumption of omega-3 fatty acids helps to prevent blood clots,
protect against irregular heartbeats, and lower blood pressure, especially in
people with hypertension or atherosclerosis.
(Flax seed oil - Fish oil)
 Omega-6-fats
Omega-6- fats are also healthy unsaturated fats
There are four types of omega-6-fats
LA (Linoleic acid)
ARA (Arachiodonic acid)
GLA (Gamma lionoleic)
CLA (conjugated linoleic acid )
Omega-6 fats play an important role in regulating our genes and
promoting immune health and blood clotting , also help with
symptoms of rheumatoid arthritis and dermatitis.
 Omega-6/Omega-3 ratio
A balanced ratio of omega-6/omega-3 fatty acids is important for health and in
the perevention of CHD and possibly other chronic diseases.

A target of omega-6/omega-3 fatty acid ratio of 1:1 to 2:1 appears to be
consistent with studies on evolutionary aspects of diet, neurodevelopment and
genetics.

Whether an omega-6/omega-3 ratio of 3:1 to 4:1 could prevent the
pathogenesis of many diseases induced by today’s Western diets.
 Saturated Fatty Acids

Have 0 double bonds between the carbons.
Are found in animal products, hydrogenated vegetable fats, & tropical
oils (palm & coconut oil).
Are solid at room temperature & unhealthy.
 Trans-Fatty Acids
Are produced when hydrogen atoms are
added to monounsaturated or
polyunsaturated fats to produce a semisolid
product like margarine.
The major source of TFAs in the diet is from
baked goods and foods eaten in
restaurants.
TFAs raise LDLs and total cholesterol.
 Sterol
Cholesterol is a sterol , It is not a true fat but a fatlike substance that exists
in animal foods and body cells. It does not exist in plant foods.
Cholesterol is essential for the synthesis of bile, sex hormones, cortisone,
and vitamin D and is needed by every cell in the body.
The body manufactures 800 to 1,000 mg of cholesterol a day in the liver.
Cholesterol’s harmful effects in the body occur when it forms deposits in
the artery walls.
These deposits lead to atherosclerosis, a disease that causes heart attacks
and strokes.
 Cholesterol is a common constituent (part) of one’s daily diet
because it is found so abundantly in egg yolk, fatty meats,
shellfish, butter, cream, cheese, whole milk, and organ meats
(liver, kidneys, brains, sweetbreads)
It is considered advisable that blood cholesterol levels not
exceed 200 mg/dl (200 milligrams of cholesterol per 1
deciliter of blood).
Cholesterol’s harmful effects in the body occur when it forms
deposits in the artery walls.
These deposits lead to atherosclerosis, a disease that causes
heart at tacks and strokes.
 Lipoproteins
Fats are insoluble in water, which is the main component of blood.
Therefore, special carriers must be provided for the fats to be absorbed
and transported by the blood to body cells.
Lipoproteins are classified according to their mobility and density as:
1- Chylomicrons,
2- Very-low-density lipoproteins (VLDLs),
3- Low-density lipoproteins (LDLs),
4- High-density lipoproteins (HDLs),
 Chylomicrons
Chylomicrons are the first lipoprotein identified after
eating.
They are the largest lipoproteins and the lightest in
weight. They are composed of 80% to 90%
triglycerides.
Lipoprotein lipase acts to break down the triglycerides
into free fatty acids and glycerol.
Without this enzyme, fat could not get into the cells.
 Low-density lipoproteins
Low-density lipoproteins are approximately 45%
cholesterol with few triglycerides.
They carry most of the blood cholesterol from the liver to
the cells.
Elevated blood levels greater than 130 mg/dl of LDL are
thought to be contributing factors in atherosclerosis.
Low-density lipoprotein is sometimes termed bad
cholesterol.
 High-density lipoproteins
High-density lipoproteins carry cholesterol from the cells to the
liver for eventual excretion.
The level at which low HDL becomes a major risk factor for heart
disease has been set at 40 mg/dl.
Research indicates that an HDL level of 60 mg/dl or more is
considered protective against heart disease.
High-density lipoproteins are sometimes called good cholesterol.
Exercising, maintaining a desirable weight, and giving up
smoking are all ways to increase one’s HDL.