Lipid Profile PDF

Summary

This document provides an overview of lipid profiles, focusing on cholesterol and triglycerides. It details normal levels, potential conditions associated with abnormal levels, and laboratory procedures for assessment. The document also touches upon the relationship between diet, lifestyle factors, and lipid levels.

Full Transcript

Lipids Profile

Dr. Doaa Samir
 Lipids Profile
Lipid profile: A pattern of lipids in the blood.

A lipid profile usually includes the levels of
total cholesterol, high-density lipoprotein
HDL-C, triglycerides, and low-density
lipoprotein LDL-C and both total
Cholesterol/HDL-C and LDL-C/HDL-C
ratios.

The results of this test can identify certain
genetic diseases and can determine
approximate risks for cardiovascular
disease, certain forms of pancreatitis, and
other diseases.
 Cholesterol
Cholesterol is small molecule, one of the steroids.
Cholesterol is a type of fat. 70% synthesized by
the body, and 30% comes from the foods (animal
source as meat and eggs). Blood cholesterol level
is related to the foods eaten or to genetic
conditions. A higher intake from food leads to a
net decreases in endogenous production, whereas
lower intake from food has the opposite effect.
Cholesterol has important functions in the body

important part in membrane of cells, organs and tissues in the
body. The hydroxyl group on cholesterol interacts with the polar head
groups of the membrane phospholipids, while the bulky steroid and
the hydrocarbon chain are embedded in the membrane. In this
structural role, cholesterol increase the permeability of the plasma
membrane.
It is used to make steroid hormones, including the adrenal gland
hormones cortisol and aldosterone as well as the sex hormone
progesterone, estrogens and testosterone.
In the liver, cholesterol is converted to bile, which is then stored in
the gallbladder. Bile contains bile salts, which solubilize fats in the
digestive tract and aid in the intestinal absorption of the fat
molecules as well as the fat-soluble vitamins, vitamin A, D, E and
K.
Therefore, cholesterol deficiency is not good. While too much
cholesterol leads to coronary artery disease.
Cholesterol levels
High level associated with heart disease
Good level: below 200 mg/dl (low risk of heart disease).
Border line: 200 - 240 mg/dl (if higher, high risk of heart disease).

Measuring blood cholesterol level not need fasting?
Cholesterol level is not affected by single meal but affected by long
term pattern of eating (change from high fat diet to low fat diet for
several weeks).
However, if the test is drawn as part of a total lipid profile, it requires
a 12-16 hours fast (no food or drink, except water) for accurate
triglycerides level.
Cholesterol level is elevated during pregnancy (till 6 weeks after
delivery)
For the most accurate results, wait at least two months after a heart
attack, surgery, infection, injury or pregnancy to check
cholesterol levels.
Laboratory diagnosis method of total cholesterol

Testing methods for total cholesterol use cholesterol oxidase reactions
along with cholesterol esterase and usually a peroxidase reaction for
the “color” or final determination reaction.
Reagents’ composition

R1 Cholesterol Standard 200 mg/dl
R2 Good’s Buffer 100 mmol/L
Cholesterol esterase 300 U/L
Cholesterol oxidase 1500 U/L
Peroxidase 5500 U/L
4-AAP 1 mmol/L
Phenol derivates 5mmol/L
Procedure
Wavelength 546 nm (500-550)
Optical path : 1 cm light path
Temperature : 20-25 or 37 ᵒC
Assay type : Endpoint
Procedure: Pipetting in tubes
Blank Standard Sample
Reagent (R2) 1000 mL 1000 mL 1000 mL
Distilled Water 10 mL - -
Standard (R1) - 10 mL -
Sample - - 10 mL
Mix, incubate for 5 min at 37°C or 10 min at 20-25°C and read
sample and standard absorbance.
Color is stable at least 30 min at room temperature.
 (A) Sample
Cholesterol mg/dl = × Standard concentration
(A) Standard

Standard concentration 200 mg/dL
 Triglycerides TG (Triacylglycerol)

Triglyceride is body storage form of fat and
energy.
Most TG found in adipose tissue.
It gives energy in case of absence of
carbohydrates.
Some triglycerides circulate in the blood to
provide fuel for muscles to work.
Extra triglycerides are found in the blood
after meal.
It elevated in obese or diabetic patients, also
from eating foods include simple sugars, such
as sweetened beverages, cookies, cakes, candy
or drinking alcohol. Associated with heart
and blood vessel disease.
TG levels
TG test needs 12 hrs. fasting because its level affected by meal
(fatty meal, high carbohydrates meal).
Level should be: Less than 160 mg/dl (for men) and less than 140
mg/dl (for women)
High TG leads to fatty liver.
Some causes of high triglycerides
Poorly-controlled type 2 diabetes: When diabetes is not well-
managed, more likely to have high level of glucose (blood sugar)
in the body.
Insulin activate Glycogenesis i.e., helps conversion of glucose into
glycogen and helps to store glycogen in the liver. When the liver
becomes too saturated with glycogen, though, glucose is instead
used to create fatty acids that are released into the bloodstream.
These fatty acids are used to make triglycerides, which build up in
fat cells and contribute to body fat.
 Insulin resistance: Insulin resistance occurs when the body does
not respond to the insulin - as a result, sugar cannot enter the cells
and instead remains in the bloodstream. Being resistant to the
action of insulin contributes to high levels of both insulin and
glucose and can lead to uncontrolled diabetes, which can lead to
high triglycerides, as described above.
Also, insulin inhibits hormone sensitive lipase (HSL), the
primary physiological function of HSL is the mobilization of
fatty acids from their triacylglycerol stores in adipose cells. In
this case HSL will not work in good state and triglycerides
concentration will increase in the body.

Obesity: Being obese or overweight is not indicated that will
develop high levels of triglycerides, but there is a correlation
between obesity and hypertriglyceridemia. There is a stronger
correlation between excess waist circumference and high levels of
triglycerides than with body mass index.
 For the enzymatic determination of Triglycerides
according to the following reaction

The intensity of the red color produced is directly proportional to Triglycerides in
the sample.
Reagents’ composition

R1 Triglycerides Standard 200 mg/dl
R2 Good’s Buffer 100 mmol/L
Magnesium Chloride 15 mmol/L
ATP 4 mmol/L
4-AAP (4-Aminoantipyrine) 1 mmol/L
4-Chlorophenol 0.1 mmol/L
LPL (Lipoprotein Lipase) 2500 U/L
GK (Glycerol kinase) 1000 U/L
GPO (Glycerol-3-phosphate oxidase) 5500 U/L
POD (Peroxidase) 1800 U/L
Procedure
Wavelength 546 nm (500-550)
Optical path : 1 cm light path
Temperature : 20-25 or 37 ᵒC
Assay type : Endpoint
Procedure: Pipetting in tubes
Blank Standard Sample
Reagent (R2) 1000 mL 1000 mL 1000 mL
Distilled Water 10 mL - -
Standard (R1) - 10 mL -
Sample - - 10 mL
Mix, incubate for 5 min at 37°C or 10 min at 20-25°C and read
sample and standard absorbance.
Color is stable at least 60 min at room temperature.
 (A) Sample
Triglycerides mg/dl = × Standard concentration
(A) Standard

Standard concentration 200 mg/dL
 Blood lipoprotein

They are lipids carrier particles.
Composed of cholesterol,
cholesterol ester, TG, phospholipids
and protein part (Apoprotein or
Apolipoproteins).
Classifying lipoproteins based on
density: chylomicron, VLDL, LDL,
and HDL.
Their Function: transport lipids
in blood to organs (lipids are
hydrophobic and can't transport
in blood without carrier).
Then these lipids are either: stored
in adipose tissue or oxidized to give
energy.
 Chylomicrons

Very low-density Lipoprotein (VLDL)
Lipoproteins
differ in their
compositions Low density Lipoprotein (LDL)

High density Lipoprotein (HDL)
Lipoproteins vary in size and compositions
 Low density lipoprotein (LDL)
LDL: bad cholesterol “carry cholesterol
from liver to blood then to organs”.
It has less protein content and contains
more cholesterol than HDL.
LDL is easy to stick to the walls of blood
vessels.
High LDL in blood associated with
atherosclerosis, heart disease and
myocardial infraction.
Reducing LDL levels is a major treatment
target for cholesterol-lowering medications.
High LDL in blood will deposited in blood
artery and trigger clot formation.
Risk of high LDL and heat disease

High blood LDL will deposit cholesterol in
the inner walls of the arteries that feed the
heart and brain.
It can form plaque (thick, hard deposit) that
can narrow the arteries and make them less
flexible.
This condition is known as atherosclerosis.
If a clot forms and blocks a narrowed artery,
heart attack or stroke can result.
Laboratory diagnosis method of LDL-cholesterol

LDL-cholesterol (LDL-C) may be calculated or measured directly.

Friedewald equation of LDL-cholesterol
Calculation of LDL-C includes total cholesterol (TC), HDL-C, and
estimated VLDL. VLDL can be calculated by dividing triglycerides
(TG) by 5 using the formula:
LDL-C = (TC) - (HDL-C) - (TG/5)

where TG/5 approximates the VLDL cholesterol concentration in the
sample.

Calculating LDL-C is less accurate in patients with a low LDL-C
level or hypertriglyceridemia (triglyceride levels ≥ 400 mg/dL).
Enzymatic colorimetric method for LDL-C

LDL-C are precipitated by heparin. After centrifugation, HDL-C and
VLDL-C remain in the supernatant. These can then be determined by
the same enzymatic method for total Cholesterol.

LDL-C = Total cholesterol – cholesterol in the supernatant.
 High density lipoprotein (HDL)

HDL: good cholesterol, carry cholesterol from
organs and blood to liver to excrete it via the bile
(either as cholesterol or after conversion to bile
acids).
i.e., HDL removes excess cholesterol from tissues (it
cleans blood).
High levels linked to a reduced risk of heart and
blood vessel disease. The higher HDL level, the
better.
Enzymatic colorimetric method for HDL-C

Phosphotungstic acid and magnesium ions selectively precipitating
all lipoproteins except HDL-cholesterol, which present in the
supernatant and can be determined by the same method used for
total cholesterol determination.

Expected values
Women 30-85 mg/dL
Men 30-70 mg/dL

LDL: Adults 66-178 mg/dL
 Reagents’ composition

Precipitating reagent
Phosphotungstic acid 0.55 mM
Magnesium chloride 25 mM
Standard cholesterol 200 mg/dl
Additional Reagent
Cholesterol Kit

Procedure
Precipitation

Sample 20 mL
Precipitating reagent (R1) 500 mL
Vortex, let stand 10 min., centrifuge for 10 min. at 4000 rpm.
Measure HDL-C in the supernatant using the same method for
total Cholesterol.
Determination of HDL-C
Wavelength 546 nm (500-550)
Optical path : 1 cm light path
Temperature : 20-25 or 37 ᵒC
Assay type : Endpoint
Procedure: Pipetting in tubes
Blank Standard Sample
Working reagent 1000 mL 1000 mL 1000 mL
in cholesterol kit
Distilled Water 10 mL - -
Standard - 10 mL -
Supernatant - - 10 mL
Mix, incubate for 5 min at 37°C or 10 min at 20-25°C and read
sample and standard absorbance.
 (A) Sample
HDL-C mg/dl = × Standard concentration
(A) Standard

Standard concentration 200 mg/dL

LDL-C = (TC) - (HDL-C) - (TG/5)
Cardiac risk ratios
The cardiac risk ratios provide more information than does either
value alone. The higher the ratio, the greater the risk for developing
atherosclerosis.

Cardiac risk ratio Interpretation
Total cholesterol/HDL-C Low risk (3.3-4.0)
Moderate risk (4.1-9.5)
High risk (> 9.5)
LDL-C/HDL-C Low risk (0.5-3.0)
Moderate risk (3.1-6.0)
High risk (> 6.0)
 Dyslipidemia

It is an abnormal levels of lipids in their blood (e.g. triglycerides,
and/or cholesterol) in the blood.

In developed countries, most dyslipidemias are hyperlipidemias;
that is, an elevation of lipids in the blood. This is often due to diet
and lifestyle.
Dyslipidemia is divided up into primary and secondary types:

Primary dyslipidemia is inherited, examples include:
o Familial hypertriglyceridemia, which is associated with
extremely high levels of triglycerides that significantly increase
the risk of pancreatitis.
o Familial hypercholesterolemia which is associated with
extremely high levels of cholesterol that results in early
atherosclerotic complications.
o Familial combined hyperlipidemia; This is the most common
inherited cause of both high cholesterol and high triglycerides.
Patient is at a higher risk for early coronary artery disease, which
can lead to a heart attack.

Secondary dyslipidemia is acquired. That means it develops from
other causes, such as obesity, diabetes, thyroid disease, and alcohol
consumption.
 Dyslipidemias can be also subdivided into two major categories:

1.Hyperlipoproteinemia or hyperlipidemia
It is abnormally elevated levels of lipids or lipoproteins in the
blood. The two major types of lipids found in the blood are
triglycerides and cholesterol.
Hyperlipidemia divided into:
Hypercholesterolemia (elevated levels of serum total
cholesterol).
Hypertriglyceridemia (elevated levels of serum triglycerides).
Combined hyperlipoproteinemia (elevated levels of serum
total cholesterol and triglycerides).
2. Hyolipoproteinemia or hypolipidemia
It is abnormally lowered levels of lipids or lipoproteins in the blood.
It occurs through genetic disease, malnutrition, malabsorption,
cancer, hyperthyroidism, inflammations and sever burns.

Hypolipidemia divided into:
Hypocholesterolemia (lowered levels of serum total cholesterol).
Hypotriglyceridemia (lowered levels of serum triglycerides).
Combined Hypolipoproteinemia (lowered levels of serum total
cholesterol and triglycerides).
 Atherosclerosis

Arteriosclerosis is a general term describing any hardening (and
loss of elasticity) of medium or large arteries (from the Greek
Arterio, meaning artery, and sclerosis, meaning hardening).

Atherosclerosis is the most common form of arteriosclerosis
which is a hardening of an artery especially due to an
atheromatous plaque.

Cholesterol is strongly implicated in the development of
atherosclerosis, fatty deposits (plaques) that form inside the blood
vessels and predispose to heart attack.
Signs and symptoms
Atherosclerosis typically begins in early adolescence, and is
usually found in most major arteries, yet is asymptomatic and
not detected by most diagnostic methods during life.
For about 65% of men and 47% of women, the first symptoms
of atherosclerotic cardiovascular disease is heart attack.

Risk factors

Elevated cholesterol, triglycerides, and LDL-C. And low HDL-C.
Hypertension and stress.
Diabetes.
Obesity.
Age.
Tobacco smoking.
Mechanism of Atherosclerosis
Atherosclerosis develops from LDL molecules becoming oxidized by
free radicals, particularly reactive oxygen species (ROS).

When oxidized LDL comes in contact with an artery wall, a series of
reactions occur to repair the damage to the artery wall caused by
oxidized-LDL.

The body immune system responds to the damage to the artery wall
caused by oxidized-LDL by sending macrophages and T-lymphocytes
to absorb the oxidized-LDL forming specialized foam cells.

Unfortunately, these WBCs are not able to process the oxidized-LDL,
and ultimately grow then rupture, depositing a greater amount of
oxidized cholesterol into artery wall. This triggers more WBCs
continuing the cycle.