E.The Cardiovascular system INTRO.pptx

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THE CARDIOVASULAR SYSTEM
introduction

By Mr D.R Siwale (Human physiologist)
MSc, BSc Biology, BSc.H Biology, Dip.Ed

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 CONTENT
OVERVIEW OF THE CARDIOVASCULAR
SYSTEM.
ANATOMY OF THE HEART.
CORONARY CIRCULATION.
INNERVATION OF THE HEART.
ANATOMY OF BLOOD VESSEL
HOW THE HEART BEATs.
CARDIAC CYCLE.
BLOOD PRESSURE.
SYSTEMIC CIRCULATION.
PULMONARY CIRCULATION.
CARDIOVASCULAR DISEASES
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CARDIOVASCULAR SYSTEM overview

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Function of the heart

The heart is a muscular
double pump with two
functions:
(1) Its right side receives
oxygen-poor blood from
the body tissues and then
pumps this blood to the
lungs to pick up oxygen
and dispel carbon dioxide,
and
(2) its left side receives the
oxygenated blood
returning from the lungs
and pumps this blood
throughout the body to
supply oxygen and
nutrients to the body
tissues

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 ANATOMICAL POSITION of THE
HEART
The human heart is located within the
thoracic cavity, between the lungs in
the space known as the
mediastinum.
A Normal heart is approximately the
size of your fist: 12 cm in length, 8 cm
wide, and 6 cm in thickness.
The weight of a female heart is
approximately 250–300 grams , and
the weight of a male heart is
approximately 300–350 grams
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 Cont’d…..
The heart is on a slant; the base is
directed toward the right shoulder,
and the apex points to the left hip.
The base is deep to the second rib,
and the apex is at the level of the
fifth intercostal space.

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Position of heart in the thorax

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STRUCTURE OF THE HEART
4 chambers
– 2 Atria
– 2 Ventricles
2 systems
– Pulmonary
– Systemic

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INTERNAL HEART ANATOMY

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What layer covers the heart?

The pericardium or pericardial
sac (“around the heart”) is a triple-
layered sac that encloses the heart.
Pericardium is made up of; Fibrous
pericardium (outer layer) and the
serous pericardium (parietal
pericardium + inner visceral
pericardium/epicardium)

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Pericardial Membranes and Layers of
the Heart Wall

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 State the 3 layers that makes up the
walls of the heart?
The wall of the heart has three layers: a superficial epicardium,
a middle myocardium, and a deep endocardium.All three
layers are richly supplied with blood vessels.

The epicardium (“upon the heart”) is the visceral layer of the
serous pericardium and is often infiltrated with fat, especially in
older people.

The myocardium (“muscle heart”) forms the bulk of the heart.
It consists of cardiac muscle tissue and is the layer that
actually contracts.

The endocardium (“inside the heart”), located deep to the
myocardium, is a sheet of simple squamous epithelium resting
on a thin layer of connective tissue. Endocardium lines the
heart chambers and covers the heart valves.
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Layers of the heart

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Foetal heart
Blood is shunted from
right atrium to left
atrium, skipping the
lungs.
Only about one-tenth
of right ventricular
output passes the
lungs (due to high flow
resistance since the
lungs are not yet
expanded, and due to
hypoxic
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vasoconstriction
 HEART VALVES

Heart Valves ensure
UNIDIRECTIONAL flow of BLOOD
Tricuspid valve or right
atrioventricular valve
Pulmonary valve
Mitral valve or bicuspid valve or left
artrioventricular valve
Aortic valve

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 Heart Sounds are produced by the closing of heart
Valves?

The closing of the valves causes vibrations in the
adjacent blood and heart walls that account for the
familiar “lub-dup” sounds of each heartbeat:
The “lub” sound is produced by the closing of the
AV valves at the start of ventricular contraction;
the “dup” is produced by the closing semilunar
valves at the end of ventricular contraction.

The mitral valve closes slightly before the
tricuspid closes, and the aortic valve generally
closes just before the pulmonary valve closes.
Hence, all four valve sounds are discernible when
the clinician listens through a stethoscope placed
on the anterior chest wall.
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 Heart Valves defects…
Classified as:
Incompetent Valve i.e Valves that leak because
they fail to close properly(or are said to exhibit
insufficiency). An incompetent valve produces a
distinct blowing sound after the valve closes.

Stenotic i.e valves with narrowed openings, such
as occur when cusps have fused or become
stiffened by calcium deposits, are termed stenotic.
Stenosis of the aortic valve produces a distinctive
“click” sound during ventricular systole as blood
passing through the constricted opening becomes
turbulent and vibrates.

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 Causes of heart Valves
defects…
Causes are:
Congenital and genetic abnormalities
Inadequate blood supply to the
valves (due to a heart attack).
Bacterial infection of the
endocardium.

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 CARDIOVASCULAR SYSTEM

The Cardiovascular System;
Discovered by the British physiologist
William Harvey in 1628.
Blood moves in two types of
circulatory pathways:
PULMONARY CIRCULATION.
SYSTEMIC CIRCULATION

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 Cont’d….
PULMONARY CIRCULATION involves
blood moving from the right ventricle
through the lungs and then to the left
atrium.
SYSTEMIC CIRCULATION blood
moves from the left ventricle through
all the organs and tissues of the body
except the lungs and then to the right
atrium.
Arteries carry blood away from the
heart and Veins carry blood toward the
heart.
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circuitry of the cardiovascular system.

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 Circulation of blood….
1. Oxygenated blood fills the left ventricle.
2. Blood is ejected from the left ventricle into the
aorta.
3. Cardiac output is distributed among various
organs.
4. Blood flow from the organs is collected in the
veins.
5. Venous return to the right atrium.
6. Mixed venous blood fills the right ventricle.
7. Blood is ejected from the right ventricle into
the pulmonary artery.
8. Blood flow from the lungs is returned to the
heart via the pulmonary vein.

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 CARDIAC OUTPUT
Cardiac output is the amount of
blood pumped from each ventricle
per minute.
Usually, it refers to left ventricular
output through aorta.
Cardiac output is the most
important factor in cardiovascular
system, because rate of blood flow
through different parts of the body
depends upon cardiac output.
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 Cont’d…..
Cardiac Output =
Heart Rate x Stroke
Volume.
Stroke volume is
the amount of blood
pumped out by
each ventricle
during each beat.
Normal value: 70
mL (60 to 80 mL)
when the heart rate
is normal
(72/minute).

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CARDIAC CYCLE

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BLOOD VESSELS
Blood vessels
are the conduits
through which
blood is carried
from the heart
to the tissues
and from the
tissues back to
the heart.
Three types are
Arteries, Veins
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and Capillaries.
Generalised structures of Arteries, Veins and
Capillaries

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Arteries and arterioles

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Capillaries, Venules and
Veins

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Cont’d….

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BLOOD PRESSURE
Blood pressure (BP) is
the pressure exerted by
circulating blood upon
the walls of blood
vessels.

Blood Pressure (BP)
usually refers to the
arterial pressure in the
systemic circulation.
Normal BP is 120
mmHg/80 mmHg.

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 Cont’d…Blood pressure.
It is usually measured at a
person's upper arm. BP is usually
expressed in terms of the systolic
(maximum) pressure over
diastolic (minimum) pressure and
is measured in millimeters of
mercury (mmHg).
 Inflate the Cuff and then
reducing the pressure can be
used to measure B.P. A
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Pressure in systemic Vessel

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HOW THE HEART BEATs.

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Conducting system of the Heart

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 Cont’d….anatomy
SinoAtrial node (SA): is located at the
junction of the superior vena cava with the right
atrium.
AtrialVentricular node (AV): is located in the
right posterior portion of the interatrial.
AtrialVentricular bundle (AV):This bundle,
also known as the bundle of His, receives the
muscle impulse from the AV node and extends
into the interventricular septum before dividing
into left and right bundle branches.
Bundle Branches: conducts impulse through
the interventricular septum.
Purkinje Fibers: conducting fibers spreading
to all parts of the ventricular myocardium
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 Cont’d….physiology

STEP 1: The heartbeat is initiated by the
specialized cardiac muscle cells of the
sinoatrial (SA) node. The cells of the SA
node act as the pacemaker, the rhythmic
center that establishes the pace for cardiac
activity.

STEP 2: The muscle impulse travels from the
SA node to the atrioventricular (AV) node.
The AV node normally slows conduction of the
impulse as it travels from the atria to the
ventricles, providing a delay between
activation and contraction
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of the ventricles.
 Cont’d…..physiology
STEP 3: The AV node communicates with the next
part of the conduction system, the atrioventricular
(AV) bundle. This bundle, also known as the bundle
of His, receives the muscle impulse from the AV node
and extends into the interventricular septum before
dividing into left and right bundles.

STEP 4: The left and right bundle conduct the impulse
to conduction fibers called Purkinje cells that begin
within the apex of the heart and extend through the
walls of the ventricles. Purkinje fibers are larger than
other cardiac muscle cells. Muscle impulse conduction
along the Purkinje fibers is extremely rapid, consistent
with the large size of the cells, and the impulse
spreads immediately throughout the ventricular
myocardium.
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INNERVATION OF THE HEART
The heart is
innervated by the
autonomic nervous
system
This innervation
consists of
sympathetic and
parasympathetic
components,
collectively
referred to as the
coronary plexus
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CORONARY CIRCULATION

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ECG-Electrocardiogram

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Normal ECG pattern

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Cont’d……..Coronary veins

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 Cont’d…
The coronary circulation provides
blood flow to the heart.

The HEART works continuously, so it
needs Oxygen and Nutrients.

It is the shortest Circulation in the
Human Body.

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 Cont’d….
The Left and Right Coronary Arteries
originate at the Base of the Aorta.
Blood enters the Coronary artery
when the Left Ventricles are
Relaxing and not when they are
contracting

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 Cont’d…….
The heart is Supplied with Arterial
blood (OXYGENATED blood) by the
Right and Left Coronary arteries
which branch from the AORTA.
The left coronary Artery supply to
the Left Ventricles and the Right
Coronary supply to the Right
ventricles.
Coronary Sinus returns de-
Oxygenated blood into the Right
atrium.
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DISORDER OF
THE HEART

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Cardiovascular disease

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 Reducing Risk of HEART
DISEASE
–Avoid tobacco
–Cut back on saturated fat
and cholesterol
–Maintain a healthy weight
–Modify dietary habits
–Physical activity

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 CARDIOVASCULAR DISEASES

Atherosclerosis/Arteriosclerosis
Hypertension
SHOCK
Stroke
Arrhythmias.
Congestive heart failure.
Valvular heart disease.
Coronary artery disease.
Pericarditis.
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What are the most important
diseases of the blood vessels?
Arteriosclerosis, which includes
changes induced by aging and
hypertension
Atherosclerosis, a multifactorial
disease
Vasculitis, an inflammatory disease
that occurs in several
clinicopathologic forms
Varicose veins
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 Do vascular diseases occur at
any age?
Yes, but they occur most often in the
elderly.

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 What are the consequences of
vascular diseases?
The most important consequences
include disturbances of blood flow,
such as hypoxia and infarction.

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 What is the difference between
arteriosclerosis and atherosclerosis?
Arteriosclerosis is a generic term used
for hardening of arteries and arterioles.
Atherosclerosis is a multifactorial disease
of arteries affected by atheromas.
It should be noted that atherosclerosis
affects only the aorta and its major
branches.
Arteriosclerosis may involve any artery in
the body and also may affect arterioles.

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 ATHEROSCLEROSIS
FEATURES: -
Hyperlipidemia – abnormally high
blood lipid level.
This causes hardening of the arteries
that progress with age.
Atherosclerosis is associated
with damage to the endothelial
lining and the formation of lipid
deposits in the tunica media.
Atherosclerosis is the most
common form arteriosclerosis.
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Deposits of fatty substances,
cholesterol, cellular waste
products, calcium, and fibrin
in the inner lining of the
artery. The commonly
affected arteries are those in
the HEART, Abdomen and
Pelvis.
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 HYPERTENTION
Hypertension is generally defined
as an arterial pressure greater than
140/90 mm Hg in adults on at least
three consecutive visits to the
doctor's office.
Hypertension is not a single disease
but a syndrome with multiple causes.

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 What are the determinants of
blood pressure?
Blood pressure depends on the cardiac output
and peripheral resistance.
Blood pressure may result from increasing the
cardiac output or peripheral vascular
resistance:
Factors increasing cardiac output: Increased
heart rate (hyperthyroidism); water and sodium
retention.
Factors increasing peripheral resistance:
Neural alpha-adrenergic effect on arterioles;
catecholamines, angiotensin II, aldosterone,
and atrial natriuretic factor
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 What is the difference
between primary and
secondary hypertension?
The cause of primary hypertension
(also known as idiopathic or essential
hypertension) is not known. It
accounts for 95% of all cases of
hypertension.
Secondary hypertension can be
related to an underlying disease. In
most instances, it is related to
diseases of the kidneys, endocrine
glands, neural disorders, and diseases
of the aorta.
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 What are complications of
hypertension?
The most commonly affected organs
are the heart, aorta, brain, eyes, and
kidneys:

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 What are aneurysms?
An aneurysm is a localized
dilatation of an artery. Aneurysms
may occur in the ventricles of the
heart. Dilatations of the veins are
called varicosities.

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 SHOCK
It refers to an abnormality of the circulatory system in
which there is inadequate blood supplied to
tissue because of a relatively or absolutely
inadequate cardiac output.
The causes are divided into four groups:
(1) inadequate volume of blood to fill the vascular
system (hypovolemic shock);
(2) increased size of the vascular system produced by
vasodilation in the presence of a normal blood volume
(distributive, vasogenic, or low-resistance
shock).
(3) inadequate output of the heart as a result of
myocardial abnormalities (cardiogenic shock);
(4) inadequate cardiac output as a result of
obstruction of blood flow in the lungs or heart
(obstructive shock).
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 STROKE
Stroke occurs when the supply of
blood to the brain is either
interrupted or reduced.
When this happens, the brain
does not get enough oxygen or
nutrients which causes brain
cells to die.
There are three main kinds of
stroke; ischemic, hemorrhagic
and Transient Ischemic
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 Ischemic strokes
Ischemic strokes are the
most common form (85% of
strokes being of this type).
They are caused by the
arteries that connect to the
brain becoming blocked or
narrowed, resulting in
ischemia - severely reduced
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 These blockages are often
caused by blood clots, which
can form either in the arteries
connecting to the brain, or
further away before being
swept through the
bloodstream and into
narrower arteries within the
brain. Clots can be caused by
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Stroke...

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 ARRYTHMIAs
It is an abnormal heart rhythm.
There are two basic kinds of arrhythmias.
(a)Bradycardia is when the heart rate is
too slow — less than 60 beats per minute.
(b)Tachycardia is when the heart rate is
too fast — more than 100 beats per
minute.

An ECG machine is usually used to
detect Arrhythmias.
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 Congestive Heart Failure
Inadequate pump function of the heart,
which leads to congestion resulting from
fluid in the lungs and peripheral tissues,
is a common end result of many cardiac
disease processes.
In congestive heart failure, blood volume
may increase 15 to 20 %, and extracellular
fluid volume sometimes increases by 200
per cent or more.
Initially, heart failure reduces cardiac
output and, consequently, decreases
arterial pressure.
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 Valvular Heart Disease
Dysfunctional cardiac valves can be
classified as either narrow (stenosis)
or leaky (regurgitation).
Tricuspid and pulmonary valves
dysfunction are relatively rare. Most
dysfunction are found on aortic and
mitral (bicuspid) valves.
Stenosis: Narrow or constricted.
Regurgitation: backflow of blood
caused by a malfunctioning valve.
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 Coronary artery Disease
The Term coronary artery disease
(CAD) refers to degenerative changes in
the coronary circulation.
Cardiac muscle fibers need a constant
supply of oxygen and nutrients, and any
reduction in coronary circulation produces a
corresponding reduction in cardiac
performance.
Such reduced circulatory Supply, known as
coronary ischemia, usually results from
partial or complete blockage of the coronary
arteries
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………….END…

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