Lec4. Coronary Arteries & Venous Drainage PDF

Summary

This document provides an overview of the coronary arteries and venous drainage of the heart, including detailed descriptions, diagrams, and illustrations. The document explores the different branches of the coronary arteries, their functions, and the areas they supply. It also addresses the tributaries of the coronary sinus.

Full Transcript

Dr Melad Naim Kelada
Associate professor
Anatomy and Embryology department
Faculty of Medicine, Alexandria University
Faculty of Medicine, Beirut Arab Universiy

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 The Right Coronary Artery (RCA)
the right coronary artery arises from the
(right coronary) aortic sinus.
It passes between the pulmonary trunk and
the right auricle.
the RCA descends in coronary sulcus to the
acute margin of the heart, curving around
it into the posterior part of the sulcus,
passing towards the crux of the heart.

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As the right coronary approaches the crux, it
gives the posterior interventricular artery ,
which occupies the posterior interventricular
sulcus,

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❖ Branches:
1. the right conus artery.
It ramifies anteriorly on the lowest part of the
pulmonary trunk and upper part of the right
ventricle.
2. Atrial branches.
multiple small arteries to the right atrium.
3.The artery of the sinoatrial node (SAN
artery)
It arises from the right coronary artery in
about 65% and from the circumflex branch of
the left coronary in 35% of people.
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▪ SAN artery passes backwards till
reaching the superior vena cava where it
either curves posterior or anterior or
forms an arterial loop around that vessel,
from which small rami branch off to
supply the right atrium.
▪ A large branch of these vessels passes
into the sinuatrial node and traverses it.
▪ The SAN artery supply the atria and the
SAN

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4. Anterior ventricular branches
usually two or three, ramify towards the
cardiac apex supplying the RT ventricle.
5. The right marginal artery
is greater in caliber than the other anterior
ventricular arteries and long enough to reach
the apex. Supplying the RV and apex of heart.

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 6. Posterior ventricular branches
commonly two, arise from the posterior
segment of the right coronary artery
between the right border and crux and
supply the diaphragmatic aspect of the
right ventricle.

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 7. Posterior interventricular artery or
posterior descending artery (PDA)
is singular in about 70% of hearts, otherwise
being accompanied by parallel branches on
both sides of the sulcus.
It supply both ventricles.
The posterior interventricular artery gives
numerous septal branches which are short
vessels, supply the posterior third of the
interventricular septum and do not usually
reach the apical parts of the septum.
This septal branches anastomose with the
septal branches of the AIV.
The PDA anastomose with the anterior
interventricular artery
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8. AV nodal artery
Arise from RCA in 80 %of people.
Usually it is the first septal branch of the PDA
and pass to the AVN.
This artery may arise from the circumflex of
LCA in 20% of subjects.

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Areas supplied by the right coronary
1. The right atrium.
2. Most of right ventricle.
3. Part of the left ventricle (the diaphragmatic surface).
4. Part of the IV septum, usually the posterior third.
5. The SA node (in approximately 60% of people).
6. The AV node (in approximately 80% of people)

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 Left coronary artery
The left coronary artery is usually
larger in caliber than the right, and
supplies a greater volume of
myocardium, including almost all the left
ventricle and atrium.

The left main coronary trunk arises from
the left aortic sinus.

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❑It lies between the pulmonary trunk and
the left auricle , emerging to reach the
atrioventricular sulcus, in which it turns
to the left.
❑Here it usually divides into two main
branches: the anterior interventricular
artery and the circumflex artery.

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 Anterior interventricular artery
The anterior interventricular or
left anterior descending branch
(LAD) is commonly described as a
continuation of the left coronary
artery.
It descends obliquely forwards
and to the left in the
interventricular sulcus.
accompanied by the great cardiac
vein and its tributaries.

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 The artery reaches the apex of the heart
and commonly turn around the apex into
the posterior (inferior) interventricular
sulcus.
It passes along the sulcus for a few
centimeters to meet the PDA.

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❖Branches of the anterior
interventricular artery:
1. Anterior left ventricular
branches: these are large vessels
from 2 to 9 in number reaching
the rounded left border of the
heart. (Diagonal)

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 2. A small left conus artery leaves the
anterior interventricular artery near its
beginning, and anastomose with the conus
branch of the right coronary
3. The anterior septal branches leave the
anterior interventricular artery almost
perpendicularly.
passing backwards and downwards in the
substance of the septum, of which they
usually supply about the anterior two
thirds.
4. Small posterior septal rami supply the
posterior third of the septum for a variable
distance from the apex.
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 Circumflex artery
The circumflex artery (Cx), usually
comparable with the anterior
interventricular artery in caliber.
curves to the left border of the heart in
the coronary sulcus, continuing round
into the posterior part of the sulcus to
terminate a little to the left of the crux.

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❖Branches of the circumflex
artery:
1. the left (obtuse) marginal artery:
a large branch, arises ramifies over the
rounded ‘obtuse' margin, supplying much of
that region of the left ventricle; it usually
reaches the apex of the heart.
2. Smaller anterior and posterior ventricular
branches of the circumflex artery also supply
the left ventricle.

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❖inconstant branches of the circumflex artery/
1. The artery to the sinuatrial node (SAN)
is a branch of the circumflex artery in about
35% of hearts.
This artery passes over the left atrium,
supplying it and then encircling the
termination of the superior vena cava, as in the
case of a nodal artery from the right coronary
artery.
Similarly, also, it sends a large branch into the
sinuatrial node, but is largely an atrial vessel in
distribution

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2. The artery to the atrioventricular node
the terminal branch in 20%, arises near the
crux, in which case the circumflex usually
supplies the posterior interventricular artery,
an example of so-called ‘left dominance'.

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Areas supplied by left coronary
1. The left atrium.
2. Most of the left ventricle.
3. Part of the right ventricle.
4. Most of the IVS (usually its anterior two thirds)
5. The SA node (in approximately 40% of people).
6. AV node in 20% of people

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Coronary artery dominance
Dominance of the coronary arterial system
is defined by which artery gives rise to the
posterior interventricular (IV) (PDA).
Dominance of the right coronary artery
occur in 67% ; the right coronary artery
gives rise to the large posterior
interventricular branch.

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Variations of the Coronary Arteries
Variations in the branching patterns and distribution of the coronary arteries are
common.
In the most common right dominant pattern, present in approximately 67% of people.
the RCA and LCA share about equally in the blood supply of the heart.
In approximately 15% of hearts, the LCA is dominant in that the posterior IV branch is
a branch of the circumflex artery.
There is codominance in approximately 18% of people, in which branches of both the
right and left coronary arteries reach the crux of the heart and give rise to branches that
course in or near the posterior IV groove.
A few people have only one coronary artery.
In other people, the circumflex branch arises from the right aortic sinus.
Approximately 4% of people have an accessory coronary artery.
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Coronary Collateral Circulation.
The branches of the coronary arteries are generally considered to be functional
end arteries (arteries that lacking efficient anastomoses from other large branches
to maintain viability of the tissue should occlusion occur).
However, anastomoses do exist between branches of the coronary arteries and
between these arteries and extracardiac vessels such as thoracic vessels.
Anastomoses exist between the terminations of the right and the left coronary
arteries in the coronary sulcus and between the IV branches around the apex in
approximately 10% of apparently normal hearts.

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 Cardiac veins

❖ The heart is drained by:
The heart is drained mainly by veins that
empty into the coronary sinus and partly
by small veins that empty directly into
the right atrium.
A. Coronary sinus and its tributaries.
the coronary sinus, the main vein of the
heart, is a wide venous channel that runs
from left to right in the posterior part of
the coronary sulcus.

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 2 or 3 cm long, in between the left atrium
and ventricle.
It opens into the right atrium between the
opening of the inferior vena cava and the
tricuspid valve; the opening is guarded by
a valve to prevent the regurgitation of the
blood during atrial contraction.

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 The tributaries of the coronary
sinus are:
1. Great cardiac vein.
2. Middle cardiac vein.
3. Small cardiac vein.
4. Posterior vein of the left ventricle.
5. Oblique vein of the left atrium.

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 The tributaries of the coronary sinus are:
1. Great cardiac vein. It begins at the cardiac apex,
ascends in the anterior interventricular groove to
the coronary sulcus passing to the left and
posteriorly to enter the coronary sinus at its origin.
It receives tributaries from the left atrium and both
ventricles, including the large left marginal vein that
ascends along the left border(obtuse border) of the
heart.
It drains most of the areas supplied by the LCA.
2. Middle cardiac vein. It begins at the cardiac apex,
and runs back in the posterior interventricular groove
to end in the coronary sinus near its end.
3. Small cardiac vein accompanies the right marginal
branch of the RCA.
The middle and small cardiac veins drain most of the
areas commonly supplied by the RCA.

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4. Posterior vein of the left ventricle. It is found
on the diaphragmatic surface of the left ventricle
a little to the left of the middle cardiac vein. It
usually opens into the center of the coronary
sinus, but sometimes opens into the great cardiac
vein.
5. Oblique vein of the left atrium. It descends
obliquely on the back of the left atrium to join the
coronary sinus near its end.

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 The coronary sinus and its tributaries
return blood to the right atrium from the
entire heart (including its septa) except for
the anterior region of the right ventricle and
small, variable parts of both atria and the
left ventricle.

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B. Anterior cardiac veins: Usually two or three, sometimes even five; they cross the right
part of the coronary sulcus, passing deep or superficial to the right coronary artery. They
end in the right atrium. The anterior cardiac veins drain an anterior region of the right
ventricle.

C. Small cardiac veins (Thebesius' veins) ( venea cordis minimi): very small veins and their
numbers and size are highly variable. They open directly into all cardiac chambers. They
are numerous in relation to the right atrium and right ventricle, but they are rare in the left
atrium and left ventricle.

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Related additional readings
Atherosclerosis
Coronary heart disease
Referred cardiac pain

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References
Anatomy: Moore KL, Dalley AF, Anne MR. Clinically Oriented Anatomy. Lippincott,
Williams & Wilkins, 7th ed. 2014.
Embryology: Sadler TW. Langman’s Medical Embryology. Wolters Kluwer, 13th ed.
2015.

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