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CIRCULATORY & LYMPHATIC SYSTEM
Link to main course page
CIRCULATORY SYSTEM AND LYMPHATIC SYSTEM
Most of
the cells in the human body are not in direct
contact with the external environment. The circulatory system
acts as a
transport service for these cells. Two fluids move through the
circulatory system: Blood and Lymph. The blood, heart, and blood
vessels
form the Cardiovascular System. The lymph, lymph nodes and lymph
vessels
form the Lymphatic System. The Cardiovascular System and the
Lymphatic
system collectively make up the Circulatory System.
OBJECTIVES:
List the parts of the circulatory
system. Describe the structure and function of the human
heart.
Trace the flow of blood through the heart and body. Distinguish
between
arteries, veins, and capillaries in terms of the structure and
function. Distinguish
between pulmonary circulation and systemic circulation. Describe the
structure
and function of the lymphatic system
1.
Higher animals, including humans, usually have a CLOSED
CIRCULATORY SYSTEM, meaning it is repeatedly cycled throughout the
body.
2. It
was in 1628, when the English physician William Harvey
showed that BLOOD Circulated throughout the body in one-way Vessels.
3.
According to Harvey, Blood was pumped out of the Heart
and into the Tissue through ONE TYPE OF VESSEL and back to the Heart
through
ANOTHER TYPE OF VESSEL. The Blood, in other words, moved in a
CLOSED
CYCLE through the body.
4. BLOOD
IS THE BODY'S INTERNAL TRANSPORTATION SYSTEM.
5. PUMP
BY THE HEART, BLOOD TRAVELS THROUGH A NETWORK OF
VESSELS, CARRYING MATERIALS SUCH AS OXYGEN, NUTRIENTS, AND HORMONES TO
AND
WASTE PRODUCTS FROM EACH OF THE HUNDRED TRILLION CELLS IN THE HUMAN
BODY.
6.
BLOOD, THE HEART, AND BLOOD VESSELS MAKE UP THE
CARDIOVASCULAR SYSTEM.
THE
HEART
1. The
Central Organ of the Cardiovascular System is the
HEART.
2. THE
HEART IS A HOLLOW, MUSCULAR ORGAN THAT CONTRACTS AT
REGULAR INTERVALS, FORCING BLOOD THROUGH THE CIRCULATORY SYSTEM.
3. The
Heart is cone-shaped, about the size of a Fist, and
is located in the Thoracic Cavity between the Lungs directly behind the
Sternum
(Breastbone). The Heart is tilted so that the APEX (the pointed
end) is
oriented to the Left.
4. The
walls of the Heart are made up of Three Layers of
Tissue.
A. The Outer and Inner Layers are
EPITHELIAL TISSUE.
B. The Middle Layer (The walls of the
four chambers of the Heart) is CARDIAC MUSCLE TISSUE CALLED THE
MYOCARDIUM.
5.
CARDIAC MUSCLE TISSUE IS NOT UNDER CONSCIOUS CONTROL OF
THE NERVOUS SYSTEM.
6.
Cardiac Muscle Tissue has a rich supply of Blood, which
ensures that it gets plenty of Oxygen.
7. There
is also a special connection between Cells that
allow Impulses to travel from one cell to another. The Cells that
make up
the Cardiac Muscle Tissue are loaded with MITOCHONDRIA, (POWERHOUSE OF
THE
CELL), guaranteeing the each Cell has a constant supply of ATP.
8. Our
Hearts Contract or Beat about once every second of
every day of our lives. The heart beats more than 2.5 million
times in an
average life span. The only time the Heart gets a Rest is Between
Beats.
HOW THE HEART
WORKS
1. The
Heart can be thought of as TWO PUMPS sitting side by
side. The Human Heart, with a Right Atrium and Right Ventricle,
as well
as a Left Atrium and Left Ventricle, essentially has TWO Separate
Hearts inside
one.
2. The
RIGHT SIDE of the Heart pumps Blood From The BODY
INTO THE LUNGS, WHERE OXYGEN POOR BLOOD (DEOXYGENATED, USUALLY SHOWN IN
BLUE)
GIVES UP CARBON DIOXIDE AND PICKS UP OXYGEN.
3. The
LEFT SIDE of the Heart pumps OXYGEN RICH BLOOD
(OXYGENATED, USUALLY SHOWN IN RED) FROM THE LUNGS TO THE REST OF THE
BODY
EXCEPT THE LUNGS.
4. The
Heart is Enclosed in a Protective Membrane Sac called
the PERICARDIUM. The Pericardium surrounds the heart and secretes
a fluid
that Reduces Friction as the heart beats.
5. Our
Heart has FOUR CHAMBERS:
A.
The UPPER CHAMBERS of the Heart are the RIGHT AND
LEFT ATRIA (ATRIUM), RECEIVE BLOOD COMING INTO THE HEART.
B. The
LOWER CHAMBERS are the RIGHT AND LEFT VENTRICLES,
PUMP BLOOD OUT OF THE HEART. The Left Ventricle is the Thickest
chamber
of the heart because it has to do most of the work to pump blood to all
parts
of the body.
6.
Vertically Dividing the Right and Left sides of the Heart
is a Common Wall called the SEPTUM. The Septum Prevents the Mixing of
Oxygen-poor and Oxygen-rich Blood.
THE
RIGHT SIDE OF THE HEART (FROM BODY TO LUNGS,
DEOXYGENTATED BLOOD -BLUE)
1.
Oxygen-Poor Blood from the body enters the Right side of
the Heart through TWO large blood vessels called VENA CAVA.
2. The
SUPERIOR (UPPER) Vena Cava brings Blood from the
UPPER PART OF THE BODY TO THE HEART.
3. The
INFERIOR (LOWER) Vena Cava brings Blood from the
LOWER PART OF THE BODY TO HE HEART.
4. Both
VENA CAVA EMPTY INTO THE RIGHT ATRIUM. When
the Heart Relaxes (Between Beats), pressure in the circulatory system
causes
the Atrium to fill with blood.
5. When
the Heart CONTRACTS, Blood is squeezed from the
RIGHT ATRIUM INTO THE RIGHT VENTRICLE through flaps of tissue called a
ATRIOVENTRICULAR (AV) VALVE, that prevents blood from flowing back into
the
Right Atrium.
6. The
valve that separates the Right Atrium and Ventricle
is called the TRICUSPID VALVE.
7. THE
GENERAL PURPOSE OF ALL VALVES IN THE CIRCULATORY SYSTEM
IS TO PREVENT THE BACKFLOW OF BLOOD. They also ensure that BLOOD
FLOWS IN
ONLY ONE DIRECTION.
8. THE
SPECIFIC PURPOSE OF THE TRICUSPID VALVE IS TO PREVENT
BACKFLOW OF BLOOD FROM THE RIGHT VENTRICLE TO THE RIGHT ATRIUM WHEN THE
RIGHT
VENTRICLE CONTRACTS.
9. When
the Heart CONTRACTS a second time, Blood in the
RIGHT VENTRICLE IS SENT THROUGH THE A SEMILUNAR (SL) VALVE KNOWN AS THE
PULMONARY VALVE INTO THE PULMONARY ARTERIES TO THE LUNGS.
These are
the Only Arteries to carry Oxygen-Poor Blood. At the base of the
Pulmonary Arteries is a valve (Pulmonary Valve) that prevents blood
from
traveling back into the Right Ventricle.
THE LEFT
SIDE OF THE HEART (FROM LUNGS TO BODY,
OXYGENATED BLOOD-RED)
1.
Oxygen-Rich Blood leaves the Lungs and Returns to the
Heart by way of Blood Vessels called the PULMONARY VEINS. These
are the
only Veins to carry Oxygen-Rich Blood.
2.
Returning Blood enters the LEFT ATRIUM, IT PASSES THROUGH
flaps of tissue called a ATRIOVENTRICULAR (AV) VALVE to the LEFT
VENTRICLE.
3. The
valve that separates the Left Atrium and Ventricle is
called the MITRAL VALVE or BICUSPID VALVE.
4. FROM
THE LEFT VENTRICLE, BLOOD IS PUMPED THROUGH A
SEMILUNAR (SL) VALVE CALLED THE AORTIC VALVE INTO THE AORTA ARTERY THAT
CARRIES
IT TO EVERY PART OF THE BODY EXCEPT THE LUNGS.
5. At
the base of the Aorta is a Valve (Aortic Valve) that
prevents blood from flowing back into the Left Ventricle.
THE
HEARTBEAT (CARDIAC CYCLE)
1. The
Cardiac Cycle is the Sequence of events in one
heartbeat. In its simplest form, the cardiac cycle is the
Simultaneous
Contraction of the TWO Atria, followed a fraction of a second latter by
the
Simultaneous Contraction of the TWO Ventricles.
2. The
Heart consists of Muscle Cells that contract in
Waves. When the first group is Stimulated, they in turn stimulate
Neighboring Cells. Those cells Stimulate more cells. This chain
reaction
continues until all cells Contract. The wave of activity spreads
in such
a way that the Atria and the Ventricles contract in a Steady Rhythm.
3. A
Heartbeat has two Phases:
A. Phase 1 - SYSTOLE is the term
for CONTRACTION. Occurs when the Ventricles contract, closing the AV
Valves and
opening the SL Valves to pump blood into two major vessels leaving the
heart.
B. Phase 2 - DIASTOLE is the term
for RELAXATION. Occurs when the Ventricles relax, allowing the back
pressure of
the blood to closed SL Valves and opening AV valves.
4. The
Cardiac Cycle also creates the HEART SOUNDS: each
heartbeat produces TWO Sounds, often called LUBB-DUP, that can be heard
with a
stethoscope.
5. The
First sound, the Loudest and Longest, is caused by
the Ventricular Systole (Contraction) closing the AV Valves.
6. The
Second sound is caused by the closure of the Aortic
and Pulmonary Valves (SL).
7. If
any of the Valves do not close properly, an extra
sound called a HEART MURMUR may be heard.
8.
Although the Heart is a SINGLE MUSCLE, it does NOT
Contract in a Single motion. The Contraction spreads over the
Heart like
a WAVE.
9. The
Wave BEGINS in a Small Bundle of Specialized Heart
Muscle Cells embedded in the RIGHT ATRIUM CALLED THE SINOATRIAL NODE
(SA).
10. The
SA Node is the Natural PACEMAKER of the Heart.
It initiates each Heartbeat and sets the PACE for the HEART RATE.
11. The
impulse spreads from the Pacemaker through the
Cardiac Muscle Cells in the Right and Left Atrium, causing BOTH Atria
to
Contract almost Simultaneously.
12. When
the impulse INITIATED by the SA Node reaches
Another special area of the Heart known as the ATRIOVENTRICULAR
(AV)
NODE. The AV Node is located in the Septum between the Right and Left
Ventricles. The AV Node Relays the electrical impulse to the muscle
cells that
make up the Ventricles. The Ventricles Contract almost Simultaneously a
Fraction
of a second after the Atria, COMPLETING ONE FULL HEARTBEAT.
13.
These Contractions causes the Chambers to Squeeze the
Blood, Pushing it in the proper direction along its path.
14. The
Heart Initiates its Own Stimulation from the
Sinoatrial Node and Atrioventricular Node, and Does NOT require
Stimulation
from the Nervous System.
15. The
Autonomic Nervous system does influence Heart
Rate. The Sympathetic Nervous System INCREASES HEART RATE and the
Parasympathetic Nervous System DECREASES IT.
16. For
most of us, at REST our Heart Beats between 60 and
80 beats per minute. During Exercise that can increase to as many
as 200
beats per minute.
BLOOD VESSELS: ARTERIES, VEINS, CAPILLARIES
1. The
Circulatory System is known as a CLOSED SYSTEM
because the blood is contained within either the Heart or Blood Vessels
at all
times.
2. The
blood Vessels that are part of the Closed Circulatory
System of humans from a vast network to help keep the Blood flowing in
One
Direction.
3. After
the Blood leaves the Heart, it is pumped through a
network of Blood Vessels to different parts of the body.
4. The
Blood Vessels that form this network and are part of
the CIRCULATORY SYSTEM ARE THE ARTERIES, CAPILLARIES, AND VEINS.
5. With
the exception of Capillaries and tiny Veins, Blood
Vessels have WALLS made of THREE LAYERS OF TISSUE, that provides for a
combination of Strength and Elasticity:
A. THE INNER LAYER IS EPITHELIAL
TISSUE.
B. THE MIDDLE LAYER IS SMOOTH MUSCLE
TISSUE.
C. THE OUTER LAYER IS CONNECTIVE
TISSUE.
ARTERIES
AND ARTERIOLES (SMALL ARTERIES)
1.
Arteries carry blood from the HEART TO CAPILLARIES AND
THE REST OF THE BODY.
2. The
Walls of Arteries are generally THICKER than those of
Veins.
3. The
Smooth Muscle Cells and Elastic Fibers that make up
the Walls help make Arteries Tough and Flexible. This enables
Arteries to
withstand the high pressure of blood as it is pumped from the Heart.
The force
that blood exerts on the walls of blood vessels is known as BLOOD
PRESSURE.
4.
EXCEPT FOR THE PULMONARY ARTERIES, ALL ARTERIES CARRY
OXYGEN-RICH BLOOD.
5. The
Artery that carries Oxygen-Rich Blood from the LEFT
VENTRICLE to all parts of the body, EXCEPT THE LUNGS, is the AORTA.
6. THE
AORTA WITH A DIAMETER OF 2.5 cm, IS THE LARGEST
ARTERY IN THE BODY.
7. As
the Aorta travels away from the Heart, it branches
into smaller Arteries so that all parts of the body are supplied.
8. THE
SMALLEST ARTERIES ARE CALLED ARTERIOLES.
CAPILLARIES
1.
ARTERIOLES BRANCH INTO NETWORKS OF VERY SMALL BLOOD
VESSELS CALLED CAPILLARIES.
2. IT IS
IN THE THIN-WALLED (ONE-CELL IN THICKNESS) THAT THE
REAL WORK OF THE CIRCULATORY SYSTEM IS DONE.
3. The
Walls of the Capillaries consist of only one layer of
cells, making it easy for Oxygen and Nutrients to DIFFUSE FROM THE
BLOOD INTO
THE TISSUE.
4.
Forces of Diffusion drive CO2 and waste products from the
tissue into the Capillaries.
5.
Capillaries are extremely NARROW; Blood Cells moving
through them must pass in Single file.
VEINS
1. THE
FLOW OF BLOOD MOVES FROM CAPILLARIES INTO THE VEINS.
2.
Veins form a system that COLLECTS Blood from every
part of the Body and CARRIES it Back to the HEART.
3. The
smallest Veins are called VENULES.
4. LIKE
ARTERIES, VEINS ARE LINED WITH SMOOTH MUSCLE.
Vein walls are thinner and less elastic than Arteries. Veins
though are
more FLEXIBLE and are able to stretch out readily.
5. This
flexibility reduces the Resistance the flow of blood
encounters on its way back to the Heart.
6. Large
Veins contain Valves that maintain the one
direction flow of Blood. This is important where Blood must flow
against
the Force of Gravity.
7. The
flow of Blood in Veins is help by Contractions of
Skeleton Muscles, especially those in the legs and arms. When
muscles
contract they squeeze against Veins and help force Blood Toward the
Heart.
PATTERNS OF
CIRCULATION
1. Blood
moves through the body in a continuous pathway, of
which there are TWO MAJOR PATHS; THE PULMONARY AND SYSTEMIC
CIRCULATION.
2. THE
PULMONARY CIRCULATION CARRIES BLOOD BETWEEN THE HEART
AND THE LUNGS. THIS CIRCULATION BEGINS AT THE RIGHT VENTRICLE AND
ENDS AT
THE LEFT ATRIUM.
3.
Oxygen-Poor blood is pumped out of the Right Ventricle of
the Heart into the Lungs through the Pulmonary Arteries. These
are the
only Arteries in the Body to Carry Deoxygenated Blood.
4. Blood
returns to the Heart through the Pulmonary Veins,
the only Veins to carry oxygen-rich blood.
5. THE
LUNGS ARE THE ONLY ORGANS DIRECTLY CONNECTED TO BOTH
CHAMBERS OF THE HEART.
6. THE
SYSTEMIC CIRCULATION, STARTS AT THE LEFT VENTRICLE
AND ENDS AT THE ATRIUM, CARRIES BLOOD TO THE REST OF THE BODY.
7.
Oxygen-rich blood leaving the Heart passes through the
Aorta and into a number of Arteries that supply blood to every part of
the
body.
8.
SYSTEMIC CIRCULATION SUPPLIES EACH MAJOR ORGAN WITH
BLOOD, INCLUDING THE HEART.
9. The
Heart receives its supply of Blood from a PAIR of
CORONARY ARTERIES leading from the Aorta. Blood enters into
Capillaries
that lead to Veins through which blood returns to the Right Atrium.
10. The
Systemic System can be divided into THREE
SUBSYSTEMS:
A. CORONARY CIRCULATION - SUPPLIES BLOOD
TO THE HEART.
B. RENAL CIRCULATION - SUPPLIES BLOOD TO
THE KIDNEYS. Nearly one-forth of the blood that is pump into the
Aorta by
the Left Ventricle flows to the Kidneys. The Kidneys Filter Waste
From
the Blood.
C. HEPATIC PORTAL CIRCULATION - Nutrients
are picked up by capillaries in the small intestines and are
transported to the
Liver. Excess nutrients are stored in the Live for future
needs.
The Liver receives oxygenated blood from a large Artery that branches
of the
Aorta.
BLOOD
PRESSURE
1. Blood
moves through our Circulation System because it is
under Pressure.
2. This
Pressure is caused by the Contraction of the Heart
and by Muscles that surround Blood Vessels.
3. A
MEASURE OF FORCE THAT BLOOD EXERTS AGAINST A VESSEL
WALL IS CALLED BLOOD PRESSURE.
4. Blood
Pressure is Always highest in the Two Main Arteries
that leave the Heart.
5. Blood
Pressure is maintain by TWO WAYS: (1)
The Nervous System, which can speed up or slow down the Heart Rate;
(2)
The KIDNEYS, which regulate blood pressure by the amount of fluid in
our Blood.
6. When
our pressure is too high, kidneys remove water from
blood, lowering the total amount of fluid in the Circulatory System.
7. Both
High and LOW Blood Pressure can cause our bodies
problems.
8.
Blood Pressure is Usually Measured in the Artery
Supplying the upper Arm.
9. To
measure Blood Pressure:
A. A Cuff is inflated around a persons arm - stopping
the flow of blood through the artery.
B. Air Pressure in the Cuff is slowly
released- the first sounds of blood passing through the artery means
that the
Ventricles have pump with enough force to overcome the pressure exerted
by the
cuff.
C. This measurement is known as the
SYSTOLIC PRESSURE, or the pressure of the blood when it leaves the
Ventricles. NORMAL PRESSURE IS ABOUT 120 mm Hg FOR MALES, AND 110
mm Hg
FOR FEMALES.
D. Air pressure is continued to be
released - listening for the disappearance of Sound, which indicates a
steady
flow of blood. This known as the DIASTOLIC PRESSURE, or the
pressure of
the blood is sufficient to keep arteries open constantly even with the
Ventricles Relax. NORMAL PRESSURE IS ABOUT 80 mm Hg FOR MALES AND
70 mm
Hg FOR FEMALES.
E. YOUR BLOOD PRESSURE IS GIVEN TO AS THE
SYSTOLIC NUMBER OVER THE DIASTOLIC NUMBER.
THE
LYMPHATIC SYSTEM
1. As
Blood Circulates throughout the body, Fluid from the
Blood LEAKS into tissue.
2. A
NETWORK OF VESSELS KNOWN AS THE LYMPHATIC SYSTEM
COLLECTS THE FLUID AND RETURNS IT TO THE CIRCULATORY SYSTEM.
3. The
loss Fluid is known as LYMPH, a transparent yellowish
fluid, and is collected in Lymphatic Capillaries and moves to larger
Lymph
Vessels. Like Veins Lymph Vessels contain valves to prevent the
back flow
of lymph. Lymph vessels form a one-way system that returns fluids
collected in
tissues back to the bloodstream.
4.
The Lymphatic system has no pump like the heart,
lymph must be moved through vessels by the squeezing of skeletal
muscles.
5. These
Lymph Vessels Pass Through small bean-shaped
enlargements (organs) called LYMPH NODES, WHICH ACTS AS FILTERS AND
PRODUCERS
OF SPECIAL WHITE BLOOD CELLS CALLED LYMPHOCYTES THAT ARE SPECIALIZED TO
FIGHT
INFECTION.
6. The
Fluid is returned to the Circulatory System at an opening
in a Vein located under the Left Clavicle, or Collarbone, just below
the
shoulder.
BLOOD
Blood is
a Liquid Connective Tissue that constitutes the
transport medium of the circulatory system. The Two main
functions of
blood are to transport nutrients and oxygen to the cells and carry
carbon
dioxide and waste materials away from the cells. Blood also
transfers
heat to the body surface and plays a role in defending the body against
disease.
OBJECTIVES:
List the components of blood. Distinguish between
red blood cells, white blood cells, and platelets in terms of structure
and
function. Summarize the process of blood clotting. Explain
what
determine the compatibility of blood types for transfusion.
1. The
Main Function of the Circulatory System is to
Transport Material in a FLUID Medium throughout the body.
2. THIS
FLUID MEDIUM IS CALLED BLOOD. BLOOD IS A TYPE
OF LIQUID CONNECTIVE TISSUE THAT HAS MANY FUNCTIONS. Blood is composed
of a
Liquid Medium and Blood Solids. The liquid makes up about 55
percent of
the blood, and blood solids make up the remaining 45 percent.
3. BLOOD
TRANSPORT NUTRIENTS, DISSOLVED GASES (O2, CO2),
ENZYMES, HORMONES, AND WASTE PRODUCTS.
4. BLOOD
REGULATES BODY TEMPERATURE, pH, and ELECTROLYTES.
5. BLOOD
PROTECTS THE BODY FROM INVADERS, AND BLOOD
RESTRICTS THE LOSS OF FLUID.
6. Our
Bodies contains 4 to 5 liters of Blood.
BLOOD
PLASMA
1.
Approximately 55 percent of Blood in made up of a Fluid
Portion called PLASMA.
2.
Plasma is the Straw-Colored Liquid portion of Blood and
is 90 Percent Water and 10 percent dissolved fats, salts, sugars, and
Proteins
called PLASMA PROTEINS.
3. THE
PLASMA PROTEINS ARE DIVIDED INTO THREE TYPES:
A. ALBUMINS - HELP REGULATE OSMOTIC
PRESSURE (MAINTAIN NORMAL BLOOD VOLUME AND BLOOD PRESSURE). THIS IS THE
MOST
ABUNDANT PLASMA PROTEIN.
B. GLOBULINS OR ANTIBODIES -
INCLUDE ANTIBODIES THAT HELP FIGHT OFF INFECTION. ANTIBODIES
INITIATE THE
DESTRUCTION OF PATHOGENS AND PROVIDE US WITH IMMUNITY.
C. FIBRINOGEN - RESPONSIBLE FOR THE
ABILITY OF BLOOD TO CLOT.
BLOOD
CELLS OR SOLIDS
THE
CELLULAR PORTION OF BLOOD MAKE UP THE OTHER 45 PERCENT
AND INCLUDES SEVERAL TYPES OF HIGHLY SPECIALIZED CELLS AND CELL
FRAGMENTS. THEY ARE RED BLOOD CELLS (RBC), WHITE BLOOD CELLS
(WBC), AND
PLATELETS.
RED
BLOOD CELLS (RBC) ERYTHROCYTES
1. RBC
are the most numerous of the Blood Cells. One
microliter of blood contains approx. 5 million RBCs
2. RBC
are BICONCAVE, or shaped so that they are narrower in
the center than along the edges.
3. RBC
are produced from cells in the Bone Marrow, they are
gradually filled with HEMOGLOBIN which forces out the nucleus and other
organelles.
4.
Mature RBC do not have a Cell Nucleus and
Organelles. The Mature RBC becomes little more than a membrane
sac
containing Hemoglobin.
5.
Hemoglobin is the iron-containing protein that gives RBC
the ability to carry Oxygen. Hemoglobin gives the RBC their
color.
6. RBC
stay in circulation for about 120 days before they
are destroyed by special WBC in the liver and spleen. RBC in your
body
are dying and being replace at a rate of about 2 million per second.
WHITE
BLOOD CELLS (WBC) LEUKOCYTES
1.
Outnumbered by RBC almost 500 to 1.
2. WBC
are produced in the Red Bone Marrow, The Lymph Nodes,
and the Spleen. They are larger than RBC, almost Colorless, and
do NOT
Contain Hemoglobin.
3. WBC
have a Nucleus and can live for many months or years.
4. THE
MAIN FUNCTION OF WBC IS TO PROTECT THE BODY AGAINST
INVASION BY FOREIGN CELLS OR SUBSTANCES.
5. WBC
called PHAGOCYTES can destroy bacteria and foreign
cells by Phagocytosis (engulfed and digested), some produce special
proteins
called ANTIBODIES, and some release special chemicals that help the
body fight
off disease and resist infection.
6.
Doctors are able to detect the presence of infection by
counting the number of WBC in the blood. When a person has an
infection,
the number of WBC can Double.
PLATELETS
AND BLOOD CLOTTING
1.
Platelets are NOT Cells; they are tiny Fragments of other
Cells that were formed in the bone marrow.
2.
Platelets are formed when small pieces of Cytoplasm are
pinched off the large cells in the Red Bone Marrow called
MEGAKARYOCYTES, which
are found in the Bone Marrow. Platelets lack a nucleus and their
life
span is about 7 to 11 days.
3.
Platelets play an important role in Blood Clotting.
4.
Platelets help the Clotting process by Clumping together
and forming a Plug at the site of a wound and then releasing proteins
called
CLOTTING FACTORS.
5.
Clotting Factors start a series of Chemical Reactions
that ends with a sticky meshwork of Fibrin Filaments that stop bleeding
by
producing a clot.
6. A
genetic disorder of Clotting Factors is called
HEMOPHILIA, suffers may bleed uncontrollably from even a small cut or
scrape.
7.
Clotting of blood in Vessels can block the flow of blood,
if this happens in the brain, brain cells may die, causing a STROKE.
BLOOD
TYPES
1. Blood
type is determined by the Type of ANTIGEN present
on the Surface of RBC.
2. An
ANTIGEN is a protein or carbohydrate that acts as a
signal, enabling the body to recognize foreign substances in the body.
3. Blood
from Humans is Classified into FOUR GROUPS, based
on the Antigens on the Surface of RBC.
4. BLOOD
TYPING involves identifying the Antigens in a
Sample.
5. THREE
of the most important human antigens are called A,
B, and Rh.
6. The
A-B-O System is based on the A and B Antigen. It is a
means of classifying blood by the Antigens located on the surface of
RBC and
the Antibodies circulating in the Plasma.
7. An
Individual's RBC may carry an A ANTIGEN, a B ANTIGEN,
both A and B ANTIGENS, OR NO ANTIGEN AT ALL. These Antigen patterns are
called
BLOOD TYPES A, B, AB, O RESPECTIVELY.
8. Type
AB is known as a Universal Receiver, meaning that
they can receive any type blood.
9. Type
O is known as a Universal Donor, meaning they can
donate blood to anyone.
Rh
SYSTEM
1. An
antigen that is sometimes on the surface of RBC is the
Rh FACTOR, named after the rhesus monkey in which it was first
discovered.
2.
Eighty-five percent of the U.S. population is Rh-positive
(Rh+), meaning that Rh Antigens are present.
3.
People who do not have Rh Antigens are called Rh-negative
(Rh-).
4. If an
Rh- person receives a transfusion of blood that has
Rh+ antigens, Rh- antibodies will react with the Antigen and
Agglutination
(clumping) will occur.
5. The
Rh Factor is the reason there are blood test before
marriage. The most serious problem with Rh incompatibility occurs
during
pregnancy.
6. If
the mother is Rh- and the father is Rh+, the child may
inherit the Dominant Rh+ allele (gene) from the father.
7. If
the babies Rh+ blood gets into the mother during
delivery, the mother will develop Antibodies to the Rh Factor.
8. If a
second Rh+ child is conceived later, the mother's
antibodies can cross the placenta and attack the blood of the fetus.
9. This
condition is called ERYTHROBLASTOSIS FETALIS.
10.
To prevent this condition, an Rh- mother of an Rh+
child can by given Antibodies to destroy and Rh+ cells that have
entered her
bloodstream from the fetus.
11. The
antibodies, a substance called RHOGAM, must be
administered to the mother within Three Days after the birth of her
first Rh+
child to remove from her bloodstream any Rh+ antibodies.
12.
By destroying any Rh+ cells in her
bloodstream, any danger to a second child is prevented because the
mother will
not make any Antibodies against the blood cells of the Rh+ fetus. |
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