Anatomy And Physiology of Human Heart
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Anatomy And Physiology of Human Heart
1. ANATOMY OF THE HEART By: Dr Mohammed Faez
2. The Heart The heart is a chambered muscular organ that pumps blood received from the veins into the arteries, thereby maintaining the flow of blood through the entire circulatory system.
3...
Slide Content
ANATOMY OF THE HEART
By:
Dr Mohammed Faez
By:
Dr Mohammed Faez
The Heart
The heart is a chambered
muscular organ that
pumps blood received
from the veins into the
arteries, thereby
maintaining the flow of
blood through the
entire circulatory
system.
The heart is a chambered
muscular organ that
pumps blood received
from the veins into the
arteries, thereby
maintaining the flow of
blood through the
entire circulatory
system.
The Heart
•The heart is surrounded
by membrane called
Pericardium.
•The heart is surrounded
by membrane called
Pericardium.
The Pericardium
•The pericardium is a
fibroseroussac that
encloses the heart and
the roots of the great
vessels.
•The pericardium lies
within the middle
mediastinum.
•The pericardium is a
fibroseroussac that
encloses the heart and
the roots of the great
vessels.
•The pericardium lies
within the middle
mediastinum.
The Pericardium
The Pericardium
•Its function is to restrict
excessive movements of
the heart as a whole
and to serve as a
lubricated container in
which the different
parts of the heart can
contract.
•Its function is to restrict
excessive movements of
the heart as a whole
and to serve as a
lubricated container in
which the different
parts of the heart can
contract.
The Pericardium
•Pericardium–a double-
walled sac around the
heart composed of:
1.A superficial fibrous
pericardium
2.A deep two-layer serous
pericardium
a.The parietallayer lines
the internal surface of
the fibrous pericardium
b.The viscerallayer or
epicardiumlines the
surface of the heart
•They are separated by
the fluid-filled
pericardial cavity
•Pericardium–a double-
walled sac around the
heart composed of:
1.A superficial fibrous
pericardium
2.A deep two-layer serous
pericardium
a.The parietallayer lines
the internal surface of
the fibrous pericardium
b.The viscerallayer or
epicardiumlines the
surface of the heart
•They are separated by
the fluid-filled
pericardial cavity
The Pericardium
The Pericardium
The Pericardium
The Pericardium
Blood Supply
•The pericardium blood
supply is from the
pericardiacophrenic
branches of the internal
thoracic arteries.
Nerve Supply
•The pericardium nerve
supply the fibrous
pericardium and the
parietal layer of serous
pericardium are supplied by
the phrenicnerve.
Blood Supply
•The pericardium blood
supply is from the
pericardiacophrenic
branches of the internal
thoracic arteries.
Nerve Supply
•The pericardium nerve
supply the fibrous
pericardium and the
parietal layer of serous
pericardium are supplied by
the phrenicnerve.
Heart Wall
•Epicardium–visceral layer of the serous
pericardium
•Myocardium–cardiac muscle layer forming
the bulk of the heart
•Fibrous skeletonof the heart –crisscrossing,
interlacing layer of connective tissue
•Endocardium–endothelial layer of the inner
myocardial surface
•Epicardium–visceral layer of the serous
pericardium
•Myocardium–cardiac muscle layer forming
the bulk of the heart
•Fibrous skeletonof the heart –crisscrossing,
interlacing layer of connective tissue
•Endocardium–endothelial layer of the inner
myocardial surface
Heart Wall
•Endocardium
–deepest layer of the
heart
–smooth lining to reduce
friction of bloodflow
•Myocardium
–middle layer of the heart
–location of muscle fibers
responsible for pumping
•Pericardium
–outer protective layer
–composed of :
–visceral pericardium
–paricardial cavity
–parietal pericardium
•Endocardium
–deepest layer of the
heart
–smooth lining to reduce
friction of bloodflow
•Myocardium
–middle layer of the heart
–location of muscle fibers
responsible for pumping
•Pericardium
–outer protective layer
–composed of :
–visceral pericardium
–paricardial cavity
–parietal pericardium
Heart Wall
Heart Wall
The Heart
•The heart is a hollow
muscular organ that is
somewhat pyramid
shaped and lies within
the pericardium in the
mediastinum.
•It is connected at its
base to the great blood
vessels but otherwise
lies free within the
pericardium.
•The heart is a hollow
muscular organ that is
somewhat pyramid
shaped and lies within
the pericardium in the
mediastinum.
•It is connected at its
base to the great blood
vessels but otherwise
lies free within the
pericardium.
The Heart
The Heart
The heart surfaces:
• The anterior (sternocostal) surface
comprises the: right
atrium, atrioventricular
groove, right ventricle, a small
strip of left ventricle and the
auricle of the left atrium.
• The inferior (diaphragmatic)
surface comprises the: right
atrium, atrioventriculargroove
and both ventricles separated by
the interventriculargroove.
• The posterior surface (base)
comprises the left atrium
receiving the four pulmonary
veins.
The heart surfaces:
• The anterior (sternocostal) surface
comprises the: right
atrium, atrioventricular
groove, right ventricle, a small
strip of left ventricle and the
auricle of the left atrium.
• The inferior (diaphragmatic)
surface comprises the: right
atrium, atrioventriculargroove
and both ventricles separated by
the interventriculargroove.
• The posterior surface (base)
comprises the left atrium
receiving the four pulmonary
veins.
The Heart
The Heart Chambers
•Four chambers
–Two atria (Right and
Left)
–Two ventricles (Right and
Left)
•Four chambers
–Two atria (Right and
Left)
–Two ventricles (Right and
Left)
The Heart Chambers
•Atria
–Features
small, thin-walled
chambers
–Functions
receiving chambers
for blood returning
to the heart from the
circulation
push the blood into
the adjacent
ventricles.
•Atria
–Features
small, thin-walled
chambers
–Functions
receiving chambers
for blood returning
to the heart from the
circulation
push the blood into
the adjacent
ventricles.
The Heart Chambers
•Atria
–Receive blood
from
Right side
Superior and
Inferior Vena
Cava
Coronary Sinus
(draining the
myocardium)
Left side
Pulmonary Veins
•Atria
–Receive blood
from
Right side
Superior and
Inferior Vena
Cava
Coronary Sinus
(draining the
myocardium)
Left side
Pulmonary Veins
The Heart Chambers
•Ventricles
–Features
make up most of
the mass of the
heart
the walls of the
left ventricle are
3X thicker than
those of the right
•Ventricles
–Features
make up most of
the mass of the
heart
the walls of the
left ventricle are
3X thicker than
those of the right
The Heart Chambers
•Ventricles
–Functions
discharging
chambers of the
heart
propel blood to
Pulmonary Trunk
(right
ventricle), Aorta
(left ventricle)
•Ventricles
–Functions
discharging
chambers of the
heart
propel blood to
Pulmonary Trunk
(right
ventricle), Aorta
(left ventricle)
The Right Atrium
• Receives deoxygenated
blood from the inferior
vena cava below and from
the superior vena cava
above.
• Receives the coronary
sinusin its lower part.
• The upper end of the
atrium projects to the left
of the superior vena cava
as the right auricle.
• Receives deoxygenated
blood from the inferior
vena cava below and from
the superior vena cava
above.
• Receives the coronary
sinusin its lower part.
• The upper end of the
atrium projects to the left
of the superior vena cava
as the right auricle.
The Right Atrium
•The sulcusterminalisis a
vertical groove on the
outer surface of the
atrium. This groove
corresponds internally to
the cristaterminalis.
•Above the coronary sinus
the interatrialseptum
forms the posterior wall.
The depression in the
septum the fossaovalis
are presents the site of
the foramen ovale.
•The sulcusterminalisis a
vertical groove on the
outer surface of the
atrium. This groove
corresponds internally to
the cristaterminalis.
•Above the coronary sinus
the interatrialseptum
forms the posterior wall.
The depression in the
septum the fossaovalis
are presents the site of
the foramen ovale.
RA
The Right Ventricle
•Receives blood from the
right atrium through
the tricuspid valve .
•The edges of the valve
cusps are attached to
chordaetendineae
which are, in turn,
attached below to
papillary muscles.
•Receives blood from the
right atrium through
the tricuspid valve .
•The edges of the valve
cusps are attached to
chordaetendineae
which are, in turn,
attached below to
papillary muscles.
The Right Ventricle
•The wall of the right
ventricle is thicker than
that of the atria but not
as thick as that of the left
ventricle.
•The wall contains a mass
of muscular bundles
known as trabeculae
carneae.
•The infundibulumis the
smooth walled outflow
tract of the right
ventricle.
•The wall of the right
ventricle is thicker than
that of the atria but not
as thick as that of the left
ventricle.
•The wall contains a mass
of muscular bundles
known as trabeculae
carneae.
•The infundibulumis the
smooth walled outflow
tract of the right
ventricle.
The Right Ventricle
•The pulmonary valve is
situated at the top of the
infundibulum.
•It is composed of three
semilunarcusps.
•Blood flows through the
valve and into the
pulmonary arteries via
the pulmonary trunk to
be oxygenated in the
lungs.
•The pulmonary valve is
situated at the top of the
infundibulum.
•It is composed of three
semilunarcusps.
•Blood flows through the
valve and into the
pulmonary arteries via
the pulmonary trunk to
be oxygenated in the
lungs.
RV
The Left Atrium
•Receives oxygenated
blood from four
pulmonary veins which
drain posteriorly.
•The cavity is smooth
walled except for the
atrialappendage.
•On the septalsurface a
depression marks the
fossaovalis.
•Receives oxygenated
blood from four
pulmonary veins which
drain posteriorly.
•The cavity is smooth
walled except for the
atrialappendage.
•On the septalsurface a
depression marks the
fossaovalis.
The Left Atrium
•The mitral(bicuspid)
valve guards the
passage of blood from
the left atrium to the
left ventricle.
•The mitral(bicuspid)
valve guards the
passage of blood from
the left atrium to the
left ventricle.
LA
The Left Ventricle
•The wall of the left ventricle
is thicker than the right
ventricle but the structure is
similar.
•The thick wall is necessary
to pump oxygenated blood
at high pressure through
the systemic circulation.
•Trabeculaecarneaeproject
from the wall with papillary
muscles attached to the
mitral valve cusp edges by
way of chordaetendineae.
•The wall of the left ventricle
is thicker than the right
ventricle but the structure is
similar.
•The thick wall is necessary
to pump oxygenated blood
at high pressure through
the systemic circulation.
•Trabeculaecarneaeproject
from the wall with papillary
muscles attached to the
mitral valve cusp edges by
way of chordaetendineae.
The Left Ventricle
•The vestibuleis a
smooth walled part of
the left ventricle which
is located below the
aortic valve .
•The vestibuleis a
smooth walled part of
the left ventricle which
is located below the
aortic valve .
LV
The Heart Valves
•Heart valves ensure
unidirectional blood flow
through the heart
–Composed of an endocardium
with a connective tissue core.
•Two major types
–Atrioventricularvalves
–Semilunarvalves
•Heart valves ensure
unidirectional blood flow
through the heart
–Composed of an endocardium
with a connective tissue core.
•Two major types
–Atrioventricularvalves
–Semilunarvalves
Atrioventricular(AV) Valves
•Atrioventricular(AV) valves lie
between the atria and the
ventricles
–R-AV valve = tricuspid valve
–L-AV valve = bicuspid or
mitral valve
•AV valves prevent backflow of
blood into the atria when
ventricles contract
•Chordaetendineaeanchor AV
valves to papillary muscles of
ventricle wall
–Prevent prolapseof valve
back into atrium
•Atrioventricular(AV) valves lie
between the atria and the
ventricles
–R-AV valve = tricuspid valve
–L-AV valve = bicuspid or
mitral valve
•AV valves prevent backflow of
blood into the atria when
ventricles contract
•Chordaetendineaeanchor AV
valves to papillary muscles of
ventricle wall
–Prevent prolapseof valve
back into atrium
AtrioventricularValve
SemilunarHeart Valves
•Semilunar valves prevent
backflow of blood into the
ventricles
•Have no chordae tendinae
attachments
•Aortic semilunar valve lies
between the left ventricle and
the aorta
•Pulmonary semilunar valve lies
between the right ventricle and
pulmonary trunk
•Heart sounds (“lub-dup”) due to
valves closing
–“Lub” -closing of atrioventricular
valves
–“Dub”-closing of semilunar valves
•Semilunar valves prevent
backflow of blood into the
ventricles
•Have no chordae tendinae
attachments
•Aortic semilunar valve lies
between the left ventricle and
the aorta
•Pulmonary semilunar valve lies
between the right ventricle and
pulmonary trunk
•Heart sounds (“lub-dup”) due to
valves closing
–“Lub” -closing of atrioventricular
valves
–“Dub”-closing of semilunar valves
SemilunarValve
The Heart Valves
•Right AV (Tricuspid)
–separates the right
atrium from the right
ventricle. Prevents
backflow into atrium.
•Left AV (Bicuspid)
–separates the left atrium
from the left ventricle.
Prevents backflow into
atrium.
•Pulmonary valve
–separates the right
ventricle from the
pulmonary arteries.
Prevents backflow after
ventricular contraction.
•Aortic valve
–separates the left
ventricle from the aorta.
Prevents backflow after
ventricular contraction .
Atrioventricularvalves Semilunarvalves
•Right AV (Tricuspid)
–separates the right
atrium from the right
ventricle. Prevents
backflow into atrium.
•Left AV (Bicuspid)
–separates the left atrium
from the left ventricle.
Prevents backflow into
atrium.
•Pulmonary valve
–separates the right
ventricle from the
pulmonary arteries.
Prevents backflow after
ventricular contraction.
•Aortic valve
–separates the left
ventricle from the aorta.
Prevents backflow after
ventricular contraction .
Atrioventricularvalves Semilunarvalves
The Heart Valves
Pulmonary
semilunar valve
Aortic
semilunarvalve
Left AV
(bicuspid)
valve
Right AV
(tricuspid)
valve
Chordai
tendineae
Papillary
muscle
Pulmonary
semilunar valve
Aortic
semilunarvalve
Left AV
(bicuspid)
valve
Right AV
(tricuspid)
valve
Chordai
tendineae
Papillary
muscle
The Heart Valves
Arterial Supply of the Heart
•The arterial supply of
the heart is provided by
the rightand left
coronary arteries, which
arise from the
ascending aorta
immediately above the
aortic valve.
•The arterial supply of
the heart is provided by
the rightand left
coronary arteries, which
arise from the
ascending aorta
immediately above the
aortic valve.
Coronary Arteries
The origins of the coronary
arteries are as follows:
•The left coronary artery
arises from the aortic
sinus immediately above
the left posterior cusp of
the aortic valve .
•The right coronary artery
arises from the aortic
sinus immediately above
the anterior cusp of the
aortic valve.
The origins of the coronary
arteries are as follows:
•The left coronary artery
arises from the aortic
sinus immediately above
the left posterior cusp of
the aortic valve .
•The right coronary artery
arises from the aortic
sinus immediately above
the anterior cusp of the
aortic valve.
Right coronary artery
Branches
–Right marginal arteries
(acute marginal artery)
–Posterior interventricular
artery. (in post. IV
sulcus)
–Sinoatrialnodal artery.
–Atrioventricularnodal
artery.
Branches
–Right marginal arteries
(acute marginal artery)
–Posterior interventricular
artery. (in post. IV
sulcus)
–Sinoatrialnodal artery.
–Atrioventricularnodal
artery.
Left coronary artery
Branches
–Left anterior descending
(LAD) or anterior
interventricularartery.
(lies in anterior IV sulcus)
•Septalbranches.
•Diagonal branches
–Left marginal artery.
(Obtuse marginal artery)
–Left circumflex artery.
Branches
–Left anterior descending
(LAD) or anterior
interventricularartery.
(lies in anterior IV sulcus)
•Septalbranches.
•Diagonal branches
–Left marginal artery.
(Obtuse marginal artery)
–Left circumflex artery.
Coronary Arteries
Venous Drainage of the Heart
•Most blood from the
heart wall drains into the
right atrium through the
coronary sinus ,which lies
in the posterior part of
the atrioventricular
groove .
•It is a continuation of the
great cardiac vein.
•It opens into the right
atrium to the left of the
inferior vena cava
•Most blood from the
heart wall drains into the
right atrium through the
coronary sinus ,which lies
in the posterior part of
the atrioventricular
groove .
•It is a continuation of the
great cardiac vein.
•It opens into the right
atrium to the left of the
inferior vena cava
Venous Drainage of the Heart
Nerve Supply of the Heart
•The heart is innervated by sympathetic and
parasympathetic fibers of the autonomic
nervous system via the cardiac plexuses
situated below the arch of the aorta.
•The sympathetic supply arises from the
cervical and upper thoracic portions of the
sympathetic trunks, and the parasympathetic
supply comes from the vagusnerves.
•The heart is innervated by sympathetic and
parasympathetic fibers of the autonomic
nervous system via the cardiac plexuses
situated below the arch of the aorta.
•The sympathetic supply arises from the
cervical and upper thoracic portions of the
sympathetic trunks, and the parasympathetic
supply comes from the vagusnerves.
THANK YOU
External Heart: Anterior View
External Heart: Posterior View
Gross Anatomy of Heart: Frontal
Section
Section
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