HEART_Detailed description on the Study of Heart.pdf

INTRODUCTION

= The heart is a roughly cone shaped hollow
muscular organ.

= Length: 10 cm
= Weight: 225 g in women

= 310 g in men

= Position/location: the heart lies in the thoracic
cavity in the mediastinum( the space between
two lungs).

=It lies obliquely little more to the left that right
and presents a base above and apex below.

ORGANS ASSOCIATED
WITH THE HEART

= Inferiorly: the apex rests on the central tendon of
the diaphragm.

=Superiorly: the great blood vessels e.g. aorta,
superior venacava, pulmonary artery and
pulmonary veins

=Posteriorly: the oesophagus, trachea, left and
right bronchus, descending aorta, inferior
venacava and thoracic vertebra

# Laterally: the lungs- the left lungs overlaps the
left side of the heart

=Anteriorly: the sternum , ribs and intercostal
muscles.

STRUCTURE OF THE HEART

= The heart wall:

= The heart wall is composed of three layers of the
tissue.

1. Pericardium
2. Myocardium
3. endocardium

Pericardial Fibrous
cavity pencardiur

Myocardiurn ~

Endocurdium —

= Pariecal
x pecicardisrm
Wisceral pericardiurn
ate epicardium!)

1. PERICARDIUM

= The pericardium is the outermost layer of the
heart and is made up with two sacs.
= Outer sac consist of : fibrous tissue

# Inner sac consists of : continues double layer of

serous membrane
= Outer layer is known as parietal pericardium
"Inner layer is known as visceral pericardium.

= the space between two sacs is known as
pericardial space, which is filled with serous
fluid, which is secreted from serous membrane of
inner sac.

2. MYOCARDIUM

"The myocardium is composed of specialised
cardiac muscles founded only in heart.

“It is not under voluntary control but striated like
skeletal muscle. Each fibres cells has nucleus
and one or more braches.

=The sheet arrangements of the myocardium
enables the atria and ventricular to contract in a
co ordinated and efficient manner.

= Myocardium is network of specialised conducting
fibres responsible for transmitting the heart
electrical signals.

=Myocardium is thickest at the apex and thins
out towards the base.

3. ENDOCARDIUM:

= This lines the chambers and valves of the hearts.

=It is a thin smooth membrane to ensure smooth
flow of blood through the heart. It consists of
flattened epithelial cells and it is continuous

with the endothelium lining the blood vessels.

INTERIOR OF THE HEART

= The heart is divide into right and left sided by
the septum, a partition consisting of myocardium
converted by endocardium.

= Each side is divide by an antrioventricular valve

into upper atrium and the ventricle below.

= Atrioventricular valve: these are formed by
double layer of endocardium.

= Strengthen by a little fibrous tissue.

Act

Votdncto

a AV VLAVES: right side AV valve has three flaps
is known as tricuspid valve, which separates
right atrium and right ventricle.

“Left sided AV valve has two flaps is called as

mitral valve or bicuspid valve, which separates
left atrium and left ventricle.

CHAMBERS OF THE HEART

=There are four chambers of the heart.
#1, right atrium - 2- 3 mm size

= 2.rigth ventricle-4-5 mm

m3. left atrium - 2-3 mm

= Left ventricle- 10-15 mm

BLOOD FLOW THROUGH THE
HEART

=The two largest veins of the body, the superior
vencava and inferior vencava empty their
contents into the right atrium.

= This blood passes via right atrioventriculer vlave

into right ventricle and from there blood is
pumped out into the pulmonary artery( the only
artery in the body which caries deoxygenated
blood).

“At the opening of pulmonary artery pulmonary
valve is present which prevents backflow of the
blood into right ventricle , it is also known as
semi-luner valve.

“After leaving the heart the pulmonary artery
divides into left and right pulmonary arteries,
which carry the blood to the lungs where
exchange of gases takes place, carbon dioxide
excreted and oxygen is absorbed.

"After purification of blood in the lungs two
pulmonary veins carry oxygenated blood back to
the left atrium.

=Blood than passes through left atrioventriculer

valve ( mitral valve, bicuspid valve) into the left
ventricle and from there blood Is pumped out into
the aorta( the first artery of general circulation).

=The opening of aorta is guarded by the aortic
valve.( at the opening of aorta there are valve
present which is called as semilunar or aortic
valve.

=However , it should be noted that both atria
contract at the same time and this followed by
the simultaneous contraction of both ventricle

—

Right Lung
—

Left Lung

game

CERT
VENTHICEE

Heart muscle

t (myocardium) }
Belly and legs

BLOOD CIRCULATION TO THE
HEART/ CORONARY CIRCULATION

arterial supply: the heart I supplied with arterial
blood by the right and left coronary arteries.

The coronary arteries branch from the ascending
aorta.

The coronary arteries receives about 5% of the
blood pumped from the heart.

Large amount of blood supply especially to the left
ventricle.

There are two coronary arteries :
1. Right coronary artery
2. Left coronary artery

Len Coronary
Artery

C
Circumtien

Artery

Left
Antenor
Descending
Artery

=1. right coronary artery:

“It supplies small branches to the right side heart.
Right arteries having two branches:

= Posterior inter ventricular branch
= Marginal branches

= The posterior inter ventricular branches supplies
blood to the wall of two ventricles.

= The marginal branches supplies blood to the
right ventricles.

= 2, left coronary artery:

=The left coronary artery passes inferior to the
left circle & divides into the anterior inter
ventricular branch & the circumflex branches.
=The anterior inter ventriculer branches will

supplies oxygenated blood to the walls of both
ventricles.

"The circumflex branch will supplies oxygenated
blood to the walls of the left ventricle & left
atrium.

superior vena Cava

right coronary
artery

inferior vena cava

pulmonary arteries

left coronary

circumflex branch
of left coronary

THE HEART AND
CORONARY ARTERIES

"Venous drainage: most of venous blood is
collected into number of cardiac veins that join to
form the coronary sinus, which opens into the
right atrium.

CONDUCTIVE SYSTEM OF HEART

=Autorythmicity: THE heart posses the property
of generating its own electrical impulse & beats
independently of nervous or hormonal control.

“lt is sullied with both sympathetic & Para
sympathetic automic nerve fibres.

= Components: SA NODE: sino-atrial node
= AV NODE: atrio-ventricular node

"AV bundle( bundle of his): atrio ventricular
bandle

Cardiac Conduction System

Left bundle branch

Right bundle branch

= SA NODE: SINO ATRIAL NODE
= This is small mass of specialise cells lies in the opening of
the superior venacava.

= The Sino atrial cells generates these regular impulses
because they are electrically unstable.

= This is also known as parameters.
= AV NODE: atrioventriculer node

= This is small mass of neuromuscular tissue is situated in
the wall of the atrial septum near the arioventricular
valve.

= Normally AV node merely transmit the electrical signals
from the atria into ventricle.

#3. atriovenriculaer bundle( bundle of his)

=This mass of specialised fibres originated from the
AV node.

=The AV node crosses the fibrous ring that separates

atria and ventricles , then at the upper end of
ventricular septum, it divides into right and left
bundle branches.

=Within the ventricular myocardium the branches
break up Into the fibres called parkinje fibres, which
supplies electrical impulses into the apex of the
heart.

NERVE SUPPLY TO THE HEART

Heart is influenced by the autonomic( sympathetic &
para sympathetic nerves originating in the
cardiovascular centre in the medulla oblongata.

The vegus nerve: supply mainly the SA node & AV

nodes & atrial muscles.

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%At rest the healthy adult heart is likely to beat at a
rate of 60-70 bpm.

“Each heart beat cycle is known as cardiac cycle .
During this time heart will contract & relax.

“The period of contraction is called as systole &
relaxation is called as diastole.

STAGES OF CARDIAC CYCLE

*Each cardiac cycle lasts about 0.8. sec consists of:
1.Atrial systole: contraction of atria 0.1 sec

2. Ventricular systole : contraction of ventricles 0.3
secs

3. Complete cardiac diastole:
‘Relaxation of atria & ventricles 0.4 secs

Semilunar
valves

© Atrial and

Ventricular
Diastole

AV valves
closed

© Arial
Systole,
Ventricular
Diastole

Semilunar
valves
open

Ventricular
Systole,
Atrial
Diastole

= The superior venacava & inferior vencava transport deoxygenated
blood into the right atrium at the same time four pulmonary
veins bring oxygenated blood into the left atrium.

= Through AV valves

= Blood flows passively into left ventricle(SA node spreads a wave
of impulse into myocardium of left atrium & starts)

® Atrial contraction

= AV node spreads , impulses quickly into ventricular muscle via
the AV bundle & purkinje fibres

= A wave of contraction sweeps upward from apex of the heart
across the both ventricles

= Ventricular contraction

= Blood pumps into pulmonary artery & aorta

= After contraction of ventricles the atrium & ventricles relax

= Myocardium recover in preparation for the next heartbeat &
atria refill for next cycle

HEART SOUND

= Heart sound is a involuntary action.

= There are four heart sounds. Each corresponding to a
particular event in the cardiac cycle.

= LUB: first sound , fairly loud occurs due to closure of
atrioventriculer vlave.

= DUP: softer , sound due to closure of aortic and
pulmonary valves.

ECG: ELETROCARDIOGRAM

sit is the report of electrical activity of the heart.

=The pattern of electrical activity may be displayed on
an oscilloscope screen or traced on paper.

=The normal ECG showing five waves by convention ,
have been named PQ,R,S, &T.

=P wave: it arise when impulse from the SA NODE
sweeps over the atria( atrial depolarisation)

"The QRS wave: it represent the very rapid spread of
the impulse from the AV node through the a bundle &
the purkinjie fibres & the electrical activities of the
ventricular muscle.

‘QRS Duration
-——

R
Atrial venfficular Ventricular

Depolarisation Depolarisation Repolarisation L } + |: | | |

P
T

Fast Heartbeat

Irregular Heartbeat

Activation of the Recovery wave
ventricles

T WAVE: it represents the relaxation of the ventricular
muscle.( ventricular repolarization)

The ECG described above originated from the SA NODE
and is known as sinus rhythm.

P: atrial contraction
QRS: ventricular contraction
T: ventricular relaxation

CARDIAC OUTPUT

"The cardiac output is the amount of blood ejected
from each ventricle every minute.

=The amount of blood expelled by each contraction of
each ventricle is the stroke volume.

= Cardiac output is expressed in litters per minutes.
= Cardiac out put = stroke volume * heart beat

ain healthy adult heart at rest the stroke volume is
approximately 7Oml and per minute heart rate is 72
per minute

= Cardiac out put will be 5 liter/ minute

FACTORS AFFECTING STROKE VOLUME

= Venous return
"strength of myocardial contraction
= Blood volume

BLOOD PRESSURE

= Blood pressure is the force pressure that the blood
exerts on the walls of the blood vessels.

“Blood pressure varies according to the times of the
day, posture, gender, age of the individual.

"Blood pressure= systolic pressure
= diastolic pressure
=Systolic pressure:

= When the left ventricular contracts € pushes blood
into the aorta, the pressure produced within the
arterial system is called the systolic blood pressure.

ain adult it will be 120 mm of Hg or 16 Kpa( kilo
paskal)

=Diastolic pressure:

= When complete cardiac diastole occurs & the heart
is resting following the ejection of the blood , the
pressure within the arteries is much lower & is called
diastole blood pressure. In adult it will be 80 mm of
Hg Or 11 Kpa.

=BP= 120 mm of HG/ 80 mm of Hg

= Blood pressure = cardiac output * peripheral
resistance

CONTROL OF BLOOD PRESSURE

= blood pressure is controlled in two ways.

=1. short term control:
= Moment to moment basis which mainly involves
1. baroreceptor reflex
2. chemo receptor reflex
3. higher centres in the brain
2. Long term control:

it involves regulation of blood by kidney and renin
angiotensin - aldosterone system( RAAS)

1. SHORT TERM BP REGULATION

Cardio vascular centre (CVC): it is collection of
interconnected nervous in the brain & situated in the
medulla & pons.

= BARORECEPTORS:

“These are nerve ending sensitive to pressure
changes ( stretch) within the vessel, situated in the
arch of aorta and in the carotid sinuses.( these are
body’s principal moment to moment regulatory
mechanism for controlling blood pressure.

= Chemoreceptors: these are the nerve ending situated in the
carotid and aortic bodies.

1. BARORECEPTORS:
= When BP increases(BP more than 120 mm of hg)
= Stimulation of baroreceptors in the aorta

= Sending the impulses in to the cardiovascular centre in the
brain

= CVC stimulates the parasympathetic nervous system

= Relaxation of muscle of blood vessels ( tunica media)
= Vasodilation

= Blood pressure will decrease

when BP decreases less than 120/80 mm of Hg
Stimulation of brain receptors in the aorta
Sending impulses into the CVC in the brain
CVC will pass message into sympathetic nervous system

Stimulation of sympathetic nerve system

Contraction of muscles of blood vessels ( tunica media)

Vasoconstriction

BP will increase

Baroreceptors

Segre © The Molina tut Comes ON Nach lo SpE or ap

Carotid sinus baroreceptors

> o
Cardioregulatory sym > Aortic arch
and vasomotor O baroreceptors
centers in à
the medulla Sympathetic
oblongata < nerves

Sympathetic’

Chair + @ Blood vessels

CHEMORECEPTORS:

When co2 level Increases & 02 level decrease In the blood stream
+
Tissue hypoxia
=
= Need to Improve tissue perfusion
=a
= Blood pressure should increase In this situation,
=
= chemoreceptor will recognize this changes in CO2 & 02 in the blood
stream.
ss
= Pass this contraction to CVC in the brain
==
= CVC will stimulate sympathetic nerve system

-

= Vasoconstriction
sas

= BP will increase

Chemoreceptor Reflex Control of Blood Pressure

Copyright © The McGraw-Hil Companies. Inc. Permission requited for reproduction or display,

. Chemoreceptors in the -
carotid and aortic bodies e hon
monitor blood O,. CO, and

2. Chemoreceptors in the
medulla oblongata monitor
blood CO, and pH

increases tho haart rate.

|. Decreased blood O,
increased CO, and
decreased pH incroase
‘Sympathetic stimulation of
the heart, which increases
the heart rate and force of
contraction.

. Decreased blood Oz,
increased GO, and
decreased pH increase
sympathetic stimulation of
blood vessels, which
increases vasoconstriction. Fig. 18.36

HIGHER CENTRE IN THE BRAIN

when emotional status such as fear, anxiety, pain , anger,
occurs.

Hypothalamus will get stimulated

Brain need more blood supply

It will stimulate sympathetic nerve system

Vasoconstriction

BP increases thus brain will get more blood supply,

LONG TERM MECHANISM

= RAAS: renin angiotensin - aldosterone system

= ltis the mechanism where involvement of kidney is possible.

= When kidney is unable to get blood supply , only this mechanism
will be activated.

a
= Low renal blood flow

a
= Decreased blood volume

. e BP
= Kidney will secret renin
= Angiotensinoge___ angiotensin |
= ACE

Angiotensin II
==

Adrenal cortex vasoconstriction
ol y

Secretion of aldosterone increased BP
= se

Kidney tubules reabsorbs kidney will get adequate blood supply
Na & water

=
Increased blood volume

==
Increased BP

CIRCULATION OF BLOOD

= Although circulation of blood around the body is
continues. It is described into two parts.

= A. pulmonary circulation
=B. systemic circulation

System Lon

FIGURE 8-6 Generalzed carculatory parreways between the heart lung. and extrermmbes

Mosby REM am 2009 by Mos: z te ot Einer Inc

carotid artery
(also subclavian
S wartery to arms
= y >

==>

jugular vein
(also subclavian
vein from arms)

pulmonary

pulmonary
vein

artery
superior

vena cava aorta

inferior
vena cava

intestinal
arteries

digest
tract

renal

artery

mas
artery

trunk and legs

A. PULMONARY CIRCULATION

=This consist of the circulation of blood from the right
ventricle of the heart to the lungs & back to the left
atrium.

= The pulmonary arteries: there are two branches for the
pulmonary trunk,

=1. right pulmonary artery: it passes to the root of the
right lungs & divides into the branches.

=- larger branches carries blood into middle & lower lobes
=- smaller branches carries into upper lobe

#2. the left pulmonary artery; it runs to the left lungs
where it divides into two branches.

= One passing into each lobe.

= Within the lungs these arteries divides & subdivide into smaller
arteries,

-
= Arterioles
a
= Capillaries
Er
the inter change of 02 & CO2 takes place between capillary
blood & air in the alveoli of the lungs.

= After gas exchanges each capillaries will join together & forms
vessels.

Er ae
= Capillaries
A

= Veinules
=
= veins

=there are two pulmonary veins.
= Right & left pulmonary veins

= This both will carry oxygenated blood into left atrium
of the heart.

2. SYSTEMIC / GENERAL CIRCULATION

ait is the circulation of blood all around the body.

=The blood pumped out from the left ventricle is
carried by the branches of the aorta around the body
& is returned to the right atrium of the heart by

superior & anterior vencava is known as systemic
circulation,

BLOOD VESSELS

= Blood vessels are acting as pumps to supply blood
through out the body.

= Blood vessels vary in structure size, function & these
are several types

= Arteries
= Arterioles
= Capillaries
= Venules
"veins

arteriole

venule

inner layer

middle laye

outer layer nz
O Artery © Vein
At any given moment, about 30% of the blood

in your systemic circulation will be found in the arteries,
5% in the capillaries and 65% in the vein.

Capillaries permit the difusion of oxygen
and nutients from the blood into the
tissues, and diffusion of waste products of
the metabolism (such as carbon dioxide)
from the issues into the blood.

Artery Afleriole Capilary Venule Vein

Direction of blood flow

ARTERIES & ARTERIOLES

= These are the blood vessels that transport blood
away from the heart.

= They vary in considerably in size & their wall consist
of their layers of tissue.

= Tunica adventitia: outer layer : fibrous tissue

= Tunica media : middle layer: smooth muscle &
elastic tissue

= Tunica intima: inner layer: squamous epithelial tissue

Artery Wall

Tunica media

Tunica intima

basement membrane

N

The Anatomy of an Artery

tunica interna——_,-
{innermost epithehim)
function: slick surface for blood flow

elastin layer

tunica media
circular smooth muscle lined on the
inside with elactic connective tissue)
function: vasoconstriction and vasodilation

tunica externa

{collagen fibers - brows connective tissue)
functions « anchor and protect

+ location of all nerve fibers and lymphatics

a in large artieries and veins, this layer has its

own blood vessels called vusa vasorim,

(epithelial cells)
@Sheri Amsel wow „exploringnatune ong

ANASTOMOSIS & END ARTERIES

= Anastomosis are arteries that form a link between
main arteries supplying an area.

=End arteries are the arteries with no anastomoses or
those beyond the most distal anastomosis.

Capillary -
bed

Simple
arteriovenous
anastomosis
(Anastomosis
arteriovenosa
simplex)

Venule

CAPILLARIES & SINUSOIDS

=The smallest arterioles break into a number of
minotic vessels called capillaries.

=The walls consist of a single layers of endothelial
cells sitting on a very thin basement membrane.

=Through which water & other small molecules can

pass.

=Entry to capillaries bed is grounded by rings of
smooth muscle( pre capillary sphincters) that directs
the blood vessels.

“in certain places, including liver & bone marrow, the
capillaries are significantly wider & thicker than
normal. These are known as SINUSOIDS.

LIVER STRUCTURE

sinusoids central vein

bile canaliculi
bile duct

hepatic artery

Metaortoriola
Flujo (formando
sanguíneo sortacirculto Esfinter

arteriovenoso) precapilar Flujo
\ Vénula sanguineo
a Arteriola

Arteria

Capilares

MICROCIRCULACIÓN.
Las metaarteriolas (anastomosis arteriovenosas) proporcionan una vía de menor
resistencia entre las arteriolas y las vénulas. Los músculos de los esfinteres
precapilares regulan el flujo sanguíneo a través de los capilares.

VEINS & VENULES

=Veins are blood vessles that returns blood at low
pressure to the heart. The walls of the veins are the
thinner than those of arteries but have the same
three layers of tissue.

=Veins are having valves, which prevent backflow of
blood. These are formed by folds of tunica intima &
strengthen by connective tissue.

= Smallest veins are called as venules.

BLOOD SUPPLY

“The outer layer of tissue of thick walled blood
vessels receive € the their blood walled blood
supply via network of blood vessels called the vasa
vasorum.

=Thin walled vessels € the endothelium of other
receives 02 & nutrients by diffusion from the blood
passing trough them.

NERVE SUPPLY

= Vasomotor centre in medulla oblongata
= Autonomic nerve system
= Sympathetic stimulation para sympathetic stimulation

= Contraction of smooth relaxation of smooth muscle
tunica media muscle of tunica media

= Vasoconstriction vasodilatation
= Lumen of blood vessel lumen of blood vessel increase
= decreased

=The aorta is biggest artery in the human body &

begins at the upper part of the left ventricle &
passing up wards for short way , it arches back
wards and to the left.

=lt then descends behind the heart through the
thoracic cavity a little to the left of the thoracic
vertebrae.

= At the level of 12' thoracic vertebra it passes behind
the diaphragm then downwards in the abdominal
cavity to the level of 4" lumber vertebra, where it
divides into the right and left common iliac arteries.

= The aorta will be described here according to its
location.

m1. thoracic aorta:
=This is the part of aorta lies above the diaphragm

and is described in three parts.
=- ascending aorta
=- arch of aorta
=- descending aorta in the thorax

=A. ascending aorta:
= |t is about 5 cm long, lies behind the sternum.

= Two blood vessels stating from ascending aorta that are, right
and left coronary artery.

Figure 1

Subclavian Artery

/

Inominate Artery —e.
Aortic Arch

À

Ascending

Apra "na

Descending

e Thoracic
Aorta

Aortic Foot o.

DIAPAHAGIA

Mac Arteries
—

= B, Arch of aorta:
= The arch of aorta is continuation of ascending aorta.

= lt begins behind the manubrium of the sternum and runs up
wards, back wards and to the left in front of trachea.

= And it is continuous with the descending aorta.

= - brachiocephalic artery
= -Left common carotid artery
= -Left subelvian artery

VENUS RETURNS FROM THE HEAD &
NECK

= The venous blood from head & neck is returned by deep &
superficial veins.

= The superficial veins will drain blood from superficial area of
the brain & deep vein drain from deep area of deep of brain.

= Veins of head and neck:

= 1. right and left middle temporal vein
= 2. right and left supra orbital veins

= 3. right and left maxillary vein

= 4. right and left facial vein

= 5. right and left lingual vein

= 6. right and left occipital veins

Veins of the Head and Neck

nie

Ophthalmic vein
Superticial temporal vein

% Facial vein
3 Occipital vein

Posterior auricular vein

% External jugular vein
3 Vertebral vein
3 Internal jugular vein

Superior and middle
thyroid veins

% Brachiocephalic vein
A Subciavian vein
% Superior vena cava

2004 Picar Educacion, ine. pto badge eme Cunas

Figure 19.256

superior sagittal sinus
inferior sagittal sinus

cavernous sin.
A

great cerebral w.

straight sin.

transverse sin.

CIRCULUS ARTERIOSOS (CIRCLE OF
WILLI)

=The greater part of the brain is supplied by
arrangement of arteries called the circle of
willis. It consist of following arteries:

= Two internal carotid arteries
=Two vertebral arteries

internal Middle
carotid | _ cerebral
artery | A f artery

Circle of
Willis #

Basilar
artery

Bottom view of brain

®ADAM.

Circle of Willis

Anterior cerebral artery

Internal carotid artery

Middle cerebral artery

Posterior cerebral artery
Superior cerebellar artery.

Basilar artery

Anterior inferior cerebellar artery

Anterior communicating artery

Perforating arteries

Ophthalmic artery

«— Anterior choroidal artery

Posterior communicating artery

_ arteries
ne

CIRCULATION OF BLOOD TO UPPER LIMB:

“Thyrocervical trunk. Subclavian artery
Vertebral artery Common carotid
artery
Thoracoacromial artery
= Brachiocephalic
Axillary artery

Pr:
Humeral circumflex f Internal
arteries 4 thoracic artery

Deep brachial artery 4 Lateral thoracic
oR artery

Brachial artery MA ” Subscapular artery

Uy
Radial artery —4 N Ulnar artery

/
(27 Deep palmar arch
F Superficial palmar arch
Digital arteries

Blood Supply of Upper Limb

Subclavian pa
Ÿ

eo
Brachial KS

a A)

df 4 Fuer

a

VENUS SUPPLY:

= The veins of upper limb is divided into two groups:
1. Deep veins:

= Metacarpal veins

= Deep palmar venous arch

= Brachial veins

= Axillary veins

2. Superficial veins

= Cephalic vein

= Basilica veins

= Median veins

= Medial cubital veins

= Both join together & forms subclavian veins.

DESCENDING AORTA:

= This is the part of aorta which continuous with
arch of aorta & begins at the 4 the thoracic
vertebra & extends downwards on the anterior
surface of the thoracic vertebra.

= The descending aorta in the thorax gives of many
paired branches those are,

= Bronchial arteries: supply to brachia € lungs
= Oesophagus arteries: oesophagus
= Intercostal artery: ribs, intercostal muscles

Mediastinal
branches

wa
9 —

10 -

Pericardial
branches

t=

12

Diaphragm

Ligamentum
arteriosum

Coronary

—=— Bronchial

Descending
(thoracic) aorta

Esophageal

Posterior
intercostal

Superior phrenic
arteries

~ Subcostal

— Celiac trunk

VENOUS RETURNS:

= There are two veins to drain venous blood in
thoracic cavity.

= Azygos vein & hemizygos vein

= The brachial vein, oesophageal vein € intercostal
vein join together & forms these two main veins.

= Azygos vein joins with superior venacva &
hemizyagose vein join with left brachiocephalic
vein.

Veins of the Thorax

Copyright © The McGraw Hil Companies, inc. Permission required tor nepeoduction ar dis
y Len

The left and right „.. 4
brachiocephalic a
veins and the

azygos veins

return blood to

the superior vena ”

cava

Left renal vein

Fig. 18.23

Veins Of The Right Upper Limb And Thorax Wall

Brachiocephalic
veins

Superiorvena

cava

Left superior

intercostal

vein

Azygos vein
Accessory

hemiazygos
vein

Intercostal-—— a Hemiazygos
veins vein

intercostal
veins

M +4 Ascending
| lumbar vein
Interior vena ———2#}

cava Renalvein

(b)

Azygous Vein

Superior vena cove Left superior intercostal v.

Right superior intercostal v.

Accessory hemiazygous

Axygous vein
Y.
Posterior intercostal v. “==> Hemiarygous v.
Diaphragm

Right ascending lumbar v.

Inferior vena cava Lumbar v.

ABDOMINAL AORTA:

=The abdominal aorta is the continuation of thoracic
aorta& entering behind diaphragm at the 12!"
thoracic vertebrae , at the level of 4ht lumber
vertebrae. it will divide into two common iliac artery.

= Many branches arises from the abdominal aorta.
= Paired branches:

Inferior phrenic artery : diaphragm

= Renal artery: kidney

= Superior renal artery: adrenal gland

= Testicular artery: testes

= Ovarian artery: ovary

= Unpaired_ branches:

1. The coeliac artery: is short, thick, 1.25cm long & it rises
immediate below the diaphragm 7, divides into 3 branches.
= Left gastric artery: stomach

= Splenic artery: pancreas & spleen

= Hepatic artery: liver, gall bladder, duodenum

2. Superior mesenteric artery:

= lt is a branch from aorta between the coeliac artery & renal
artery & supply blood supply to small intestine & proximal
part of large intestine.

3. Inferior mesenteric artery:

= lt arises from aorta about 4cm above its division into common
iliac artery. It supplies distal half of large intestine & part of
rectum.

Copyright © Tha Me Gem Mil Companies, ne Parranion required lor reproduction ot déni

Abdominal*
aorta

Phrenic a. (MÍA spicni
=> Splenic a.
Hepatic a. 4. Left gastric a*
ight '

gastric a. 4
Suprarenal a. ay (6

*Renal a.—— = 1 Superior *

“Gonadal a. : \
Lumbar a. >
re | i J er
> == — Inferior*

i Wea mesenteric a.

Common*

Middle sacral a. iliac a.

(a) sonia Ice: 5

mesenteric a.

VENUS RETURN:

= Paired testicular, ovarian, renal & adrenal veins
join into directly inferior venacava.

= Blood from remaining organs in the abdominal
cavity passes through the liver via PORTAL
CIRCULATION & enter into interior venacva.

PORTAL CIRCULATION:

"In the portal circulation, venous blood passes
from the capillary beds of the abdominal part of
the digestive system, spleen, pancreas to the
liver.

"In this way blood with a high concentration of
nutrients, absorbed from the stomach and
intestines goes to the liver first.

= In liver certain modification take place including
the regulation of blood nutrients levels.

“It passes in second capillary bed , the hepatic
sinusoids & from portal vein.

Hepatic Hepatic vein Hepatic artery

sinuses

intestinal vela “—— Intestinal artery

ra
Capillary
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= PORTAL VEIN:

= This is formed by the union of the following veins, each of
which drains blood from the area supplied by
corresponding artery.
Splenic vein: drains blood spleen , pancreas, part of

stomach

= Inferior mesenteric vein: rectum, pelvic, descending colon
of large intestine.
Superior mesenteric vein: small intestine, proximal part
of large intestine

= Gastric vein: stomach, Distal end of oesophagus

= Cystic vein: gall bladder

= HEPATIC VEIN:

=" These are very short veins that leave the
posterior surface of the liver & almost
immediately enter the inferior vencava.

CIRCULATION OF PELVIS & LOWER LIMB:

= Abdominal aorta will divide into right & left
common iliac artery. These are divided into
further two branches.

# Internal iliac artery

= External iliac artery

"Internal iliac artery:
alt will supply organs in the pelvic cavity. In
female: uterine artery

= External iliac artery:

"lt will obliquely downwards € passes into where it
divides femoral artery & branches into popliteal
artery which supply blood to the knee area and
popliteal fossa. It further divides into :

=The femoral artery: begins at midpoint at the
inguinal ligament & extends downwards in front of
the thigh. Then it eventually passes through
popliteal space where it becomes the popliteal artery.

= Popliteal artery: it passes through the popliteal fossa
behind the knee, where pulse can be felt. At lower
border of the popliteal fossa it divides into the
anterior and posterior tibial arteries.

=Anterior tibial artery: which supplies blood
supply to the tibia, ankle joint. It will divide over
the dorsum of foot & forms dorsalis pedis artery.

= Posterior tibial artery: it runs medially back of

legs & gives a branch peroneal artery which
supplies lateral aspect of the leg & forms a new
branch- planter artery, which supplies blood to
the sole of the foot.

= Right common iliac artery

= Right internal iliac artery
artery |

=
s
Scrotal artery

= Uterine artery
=

right external iliac

|

- femoral artery

-popliteal artery
-Anterior €: posterior tibial artery
Dorsalis pedis & planter arteries

VENUS RETURN:

= 1. Deep veins:

= Digital vein

= Planter venous arch
= Post tibial vein

= Anterior tibial vein
= Popliteal vein

= Femoral vein

= External iliac vein
= Internal iliac vein

= Common iliac vein

= Both right & left common iliac veins joins into inferior
venacava at the sacro iliac joint.

Frei musst seque lor Pop du tort de Cp

Inferior vena cava
Common iliac vein
External iliac vein
Deep femoral vein

Femoral vein

Great saphenous vein
Popliteal vein

Small saphenous vein
Anterior tibial vein
Posterior tibial vein

Fibular vein
Great saphenous vein
Plantar veins
Dorsal veins of the foot
Dorsal venous arch
Digital veins

2, Superficial vein: there are two main superficial
veins are draining blood from the lower limbs are,

=Small saphenous vein: the small saphenous vein
begins behind the ankle joint& joins into

popliteal vein.

=Great saphenous vein: it is the longest vein of
the body, it begins at the medial half of the
dorsum of the foot & runs upwards crossing over
thigh & joins into political vein.

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