heart intro.pptx full introduction about the heart

HEART
Dr. SNEHA
Assistant professor
Department of anatomy

Heart
• Is a hollow muscular organ situated in the
mediastinum of the thoracic cavity, enclosed in
the pericardium.
• It is somewhat pyramidal in shape and placed
obliquely behind the sternum and adjoining
parts of costal cartilages so that one-third of
the heart is to the right of median plane and
two-third of the heart is to the left of median
plane.

• Heart consists of four chambers- Right atrium and
Right ventricle, and left atrium and left ventricle.
• On the surface the atria are separated from the
ventricles by the atrioventricular groove and
ventricles each other by interventricular grooves.

Shape and Measurements
• Shape : Pyramidal or conical
• Length : 12 cm
• Width : 9cm
• Weight : 300 g in males, 250 g in females

EXTERNAL FEATURES
• APEX
• BASE
• THREE SURFACES (STERNOCOSTAL,
DIAPHRAGMATIC, AND LEFT)
• FOUR BORDERS (RIGHT, LEFT, UPPER AND
INFERIOR)

APEX OF THE HEART
• Is a conical area formed by the left ventricle.
• It is directed downwards and forwards, and to
the left.
• It lies at the level of 5th intercostal space, 3.5
inches (9cm) from the midline and just medial
to the midclavicular line.

BASE OF HEART
• The base or (Posterior surface) of the heart is formed
by two atria, mainly by left atria.
• Two-thirds of the base is formed by the posterior
surface of the left atrium and one –third by the
posterior surface of the right atrium.
• It is directed to backwards into the right (opposite to
apex)

BASE- CHARACTERISTIC FEATURES
• It lies opposite to the apex.
• It lies in front of the middle four thoracic vertebra
(i.e, T5-T8) in the lying down position and descends
one vertebra in the erect posture (T6-T9)
• Base is separated from vertebral column by the
oblique pericardial sinus, esophagus and aorta.
• Clinically base is upper border of the heart where
great blood vessels (superior vena cava, ascending
aorta and pulmonary trunk are attached.

SURFACES OF HEART
• Heart has three surfaces
• Sternocostal (anterior )
• Diaphragmatic (inferior)
• Left surface.

Sternocostal Surface
• It is formed mainly by the Right Atrium and Right
ventricle, which are separated from each other by the
anterior part of AV groove.
• Sternocostal surface is also partly formed by the left
auricle and left ventricle.
• The right ventricle is separated from the left ventricle
by the anterior interventricular groove.

DIAPHRAGMATIC SURFACE
• This surface is flat and rests on the central tendon of
the diaphragm.
• It is formed by the left and right ventricles which are
separated from each other by the posterior
interventricular groove.
• The left ventricles form left two-third of this surface
and right ventricle forms only right one-third on this
surface.

LEFT SURFACE
• It is formed mainly by the left ventricle and partly by
the left atrium and auricle.
• It is directed upwards, backwards and to the left.

UPPER BORDER
• Upper border is slightly oblique, and formed
by the two atria, chiefly the left atrium.

RIGHT BORDER OF HEART
• More or less vertical and is formed by the Right
atrium.
• It extends from Superior vena cava to Inferior vena
cava.

INFERIOR BORDER
• Inferior border is nearly horizontal and is formed
mainly by the right ventricle.
• A small part of it near the apex is formed by the left
ventricle. It extends from Inferior vena cava to apex.

LEFT BORDER
• Left border is oblique and curved.
• It is formed mainly by the left ventricle, and
partly by the left auricle.
• It separates the anterior and left surfaces of
heart.
• It extends from apex to left auricle.

CHAMBERS OF HEART
• RIGHT ATRIUM
• Right atrium is the right upper chamber of
heart.
• Receives venous blood from the whole body,
pumps it to the right ventricle through right
atrioventricular or tricuspid opening.
• It forms the right border, part of the upper
border, the sternocostal surface and the base of
heart.

EXTERNAL FEATURES
• Chamber is elongated vertically, receiving
superior vena cava at the upper end and the
inferior vena cava at the lower end.
• The upper end is prolonged to the left to form the
right auricle.
• The auricle covers the root of ascending aorta and
partly overlaps the infundibulum of right
ventricle.
• Its margins are notched and the interior is sponge
like, which prevents free flow of blood.

• Along the right border of atrium, there is a
shallow vertical groove which passes from the
superior vena cava. This groove is called as
Sulcus Terminalis.

• It is produced by an internal muscular ridge called
CRISTA TERMINALIS
• The upper part of the sulcus contains the sinuatrial or
SA node which acts as the pacemaker of the heart.
• The right atrioventricular groove separates the right
atrium from the right ventricle.
• It is more or less vertical and lodges the right
coronary artery and the small cardiac vein.

TRIBUTARIES/INLETS OF THE
RIGHT ATRIUM

• Superior vena cava
• Inferior vena cava
• Coronary sinus
• Anterior cardiac veins
• Venae cordis minimae (thebesian veins)
• Sometimes the right marginal vein

RIGHT ATRIOVENTRICULAR
ORIFICE

• Blood passes out of the right atrium through
the right atrioventricular or tricuspid orifice
and goes to the right ventricle.
• The tricuspid orifice is guarded by the
tricuspid valve which maintains unidirectional
flow of blood.

INTERNAL FEATURES
• Interior of right atrium can be divided into
• Smooth posterior part or sinus venarum
• Rough anterior part or Pectinate part,
including the auricle
• Interatrial septum

Smooth posterior part/sinus venarum
• Developmentally it is derived from the right
horn of the sinus venosus.
• Most of the tributaries except the cardiac veins
open into
• Superior vena cava opens at the upper end.
• Inferior vena cava opens at the lower end.
• The opening of the inferior vena cava is
guarded by a rudimentary valve of the inferior
vena cava or eustachian valve.

• Coronary sinus opens between the opening of
Inferior vena cava and right atrioventricular
orifice.
• The opening is guarded by valve of coronary
sinus or thebesian valve.
• Venae cordis minimae are numerous and small
veins present In the walls of all four chambers.
• They open into right atrium through small
foramina.

ROUGH ANTERIOR PART/PECTINATE
PART INCLUDING AURICLE
• Developmentally it is derived from the primitive
atrial chamber.
• It presents a series of transverse muscular ridges
called Musculi pectinati.
• They arise from the crista terminalis and runs
forwards and downwards towards the right
atrioventricular orifice, giving the appearance of
the teeth of comb.
• In the auricle the muscles are interconnected to
form a reticular network.

Interatrial septum
• Developmentally it is derived from the septum
primum and septum secondum.
• It presents the fossa ovalis, a shallow saucer
shaped depression in the lower part.
• The fossa represents the site of the embryonic
septum primum.
• Tha annulus ovalis or limbus (border) fossa
ovalis is prominent margin of fossa ovalis.
• It represents the lower free edge of the septum
secundum. It is distinct above and at the sides of
the fossa ovalis, deficient inferiorly.

• Its anterior edge is continuous with the left end
of the valve of inferior vena cava.
• The remains of the foramen ovale are
occasionally present. This is a small slit like
valvular opening between the upper part of the
fossa and limbus.
• It normally occluded after birth, but may
sometimes persists.

• The intervenous tubercle of lower is a very
small projection, scarcely visible on the
posterior wall of the atrium just below the
opening of superior vena cava.

• Position
• Right ventricle is a triangular chamber receives blood
from right atrium and pumps it into lungs through
pulmonary trunk and pulmonary arteries.
• It forms the inferior border and two-thirds part of the
sternocostal surface and one-third part of inferior
surface of the heart.

EXTERNAL FEATURES
• Externally the Right ventricle has two surfaces
Anterior/sternocostal surface and Inferior or
diaphragmatic.
• Interior two parts
• Inflowing part – is rough due to the presence of
muscular ridges called trabeculae carneae it
develops from the proximal part of the bulbus cordis
of the heart tube.

• The outflowing part or infundibulum is smooth and
forms the upper conical part of the right ventricle
which gives rise to the pulmonary trunk.
• It develops from the midportion of bulbus cordis.
• The two parts are separated by a muscular ridge
called the supraventricular crest or
infundibuloventricular crest situated between the
tricuspid and pulmonary orifices.

INTERNAL FEATURES
• Interior shows two orifices
• The right atrioventricular or tricuspid orifice,
guarded by the tricuspid valve
• The pulmonary orifice guarded by the
pulmonary valve

• The interior or inflowing part shows
Trabeculae carneae or muscular ridges of three
types.
• Ridges or fixed elevations
• Bridges
• Pillars or papillary muscles with one end
attached to the ventricular wall, and the other
end connected to the cusps of the tricuspid
valve by chordae tendinae.

• There are three papillary muscles in the right
ventricle- anterior,posterior and septal.
• The anterior muscle is the largest.
• The posterior or inferior muscle is small and
irregular.
• The septal muscle is divided into number of little
nipples.
• Each papillary muscle is attached by chordae tendinae
to the contiguous sides of cusps.

• The septomarginal trabecula or moderator band is a
muscular ridge extending from the ventricular septum
to the base of the anterior papillary muscle.
• It contains the right branch of the AV bundle.

• The cavity of the right ventricle is crescentic in
section because of the forward bulge of the
interventricular septum.
• The wall of the right ventricle is thinner than that of
the left ventricle in ratio of 1:3

• The septum is placed obliquely.
• Its one surface faces forwards and to the right and the
other faces backwards and to the left.
• The upper part of the septum is thin and membranous
and separates not only the two ventricles but also the
right atrium and left ventricle
• The lower part is thick muscular and separates the
two ventricles.
• Its position is indicated by the anterior and posterior
interventricular grooves.

• Left atrium is quadrangular chamber situated
posteriorly.
• Its appendage the left auricle projects anteriorly to
overlap the infundibulum of the right ventricle.
• The left atrium forms the left two-thirds of the base of
the heart, the greater part of the upper border, parts of
the sternocostal and left surfaces and left border.

• LA receives oxygenated blood from the lungs through
pulmonary veins and pumps it into left ventricle
through left atrioventricular or bicuspid or mitral
orifice which is guarded by valve of the same name.

FEATURES
• Posterior surface of the atrium forms the anterior wall
of the oblique sinus of the pericardium
• The anterior wall of the atrium is formed by the
interatrial septum.
• Two pulmonary veins open into the atrium on each
side of the posterior wall.

• The greater part of the interior of the atrium is smooth
walled.
• It is derived embryogically from the absorbed
pulmonary veins which open into it.
• Musculi pectinati are present only in auricle where
they form reticulum.
• This part develops from the original primitive atrial
chamber of the heart tube.

• The left ventricle receives oxygenated blood from the
left atrium and pumps it into aorta.
• It forms the apex of the heart, a part of sternocostal
surface and the left two-thirds of the diaphragmatic
surface.

FEATURES
• Externally the left ventricle has three surfaces-
anterior or sternocostal, inferior or diaphragmatic and
the left.
• The interior is divisible into two parts.
• The lower rough part with trabeculae carneae
develops from the primitive ventricle of the heart
tube.

• The upper smooth part of the aortic vestibule gives
origin to the ascending aorta: it develops from the
midportion of the bulbus cordis. The vestibule lies
between the membranous part of the interventricular
septum and anterior or aortic cusp of the mitral valve.

• The interior of the ventricle shows two orifices:
• The left atriventricular or bicuspid or mitral orifice,
guarded by the bicuspid or mitral valve.
• The aortic orifice, guarded by the aortic valve.
• There are two well developed papillary muscles-
anterior and posterior.
• Chordae tendinae from both muscles attached to the
cusps of mitral valve.
• The cavity of the left ventricle is circular in cross
section.

• The walls of the left ventricle are three times thicker
than those of the right ventricle.

STRUCTURE OF HEART
• VALVES
• Valves of the heart maintains unidirectional flow of
the blood and prevent its regurgitation in the opposite
direction.
• There are two pairs of valves in the heart
• A pair of Atrioventricular valves and a pair of
semilunar valves
• The right atrioventricular valve is known as the
Tricuspid valve because it has three cusps.

• The left atrioventricular valves is known as bicuspid
valve because it has two cusps.
• It is also called the mitral valve.
• The semilunar valves include the aortic and
pulmonary valves, each having three semilunar cusps.

ATRIOVENTRICULAR VALVES
• Both valves are made up of
• Fibrous ring to which cusps are attached
• Cusps are flat and project into the ventricular cavity.
• Each cusp has an attached and a free margin, and an
atrial and ventricular surface.
• Atrial surface is smooth. The free margins and
ventricular surfaces are rough and irregular due to the
attachment of chordae tendinae.

• Chordae tendinae connect the free margins and
ventricular surfaces of the apices of the papillary
muscles
• Prevent erosion of the free margins and limit amount
of ballooning of the cusps towards the cavity of the
atrium.
• The AV valves are kept competent by active
contraction of the papillary muscles, which pull on
the chordae tendinae during ventricular systole.

• Blood vessels are present only in the fibrous ring and
the basal one-third of the cusps.
• Nutrition to the central two-thirds of the cusps is
derived directly from the blood in the cavity of the
chest.
• The tricuspid valve has three cusps and can admit the
tips of three fingers.
• The three cusps- the anterior, posterior/inferior and
septal.

• These lie against the walls of the ventricle.
• Of the three papillary muscles the anterior is the
largest, the inferior is the small and irregular and the
septal is represented by number of small muscular
elevations.
• The mitral or bicuspid valve has two cusps- a large
anterior or aortic cusp and a small posterior cusp.
• It admits the tips of two fingers.
• The anterior cusp lies between the mitral and aortic
orifices

• The mitral cusps are smaller and thicker than
those of the tricuspid valve.

SEMILUNAR VALVES
• Aortic and pulmonary valves are called semilunar
valves because their cusps are semilunar in shape.
Both valves are similar to each other.
• Each valve has three cusps which are attached
directly to the vessel wall, there being no fibrous ring.
• The cusps form small pockets with their mouths
directed away from the ventricular cavity.
• the free margin of each cusp contains a central fibrous
nodule from each side of which a thin smooth margin
the lunule extends up to the base of the cusp.

• These valves are closed during ventricular diastole
when each cusp bulges towards ventricular cavity.
• Opposite the cusps, the vessel walls are slightly
dilated to form the aortic and pulmonary sinuses.
• The coronary arteries arise from the anterior and left
posterior aortic sinuses.

FIBROUS SKELETON
• The fibrous ring surrounding the atrioventricular and
arterial orifices, along the adjoining masses of the
fibrous tissue constitute the fibrous skeleton of the
heart.
• It provides attachment to the cardiac muscle and
keeps the cardiac valves competent.

• There is a large mass of fibrous tissue between the
atrioventricular rings behind the aortic ring in front. It
is known as the Trigonum fibrosum dextrum.
• Another small mass of fibrous tissue is present
between the aortic and mitral rings. It is known as the
Trigonum fibrosum sinistrum.
• The tendon of the infundibulum (close to pulmonary
valve) binds to the posterior surface of the
infundibulum to the aortic ring.

heart intro.pptx full introduction about the heart

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heart intro.pptx full introduction about the heart