Heart and Circulatory system DTH21.pptx

Transcript

The Heart and Circulatory System
Learning Outcomes

At the end of the session students will be
able to:
 Describe the heart
 Explain the structure of the heart
 Describe the flow of blood through the heart
 Understand the conduction system of the heart
 Describe blood supply to the heart
 Describe the components of the circulatory system

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Heart

 The heart is a hollow four chambered
muscular organ roughly the size of a
clenched fist

 The heart beats around 100 000
times a day

 It acts as two separate pumps; the
right heart pumps blood to the lungs
and the left heart pumps blood to the
body

Image Pinterest Feb 2021
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Heart shape and position

 The heart is located in the thoracic
cavity, in between the lungs, in a
region known as the mediastinum

 It sits behind the breastbone
(sternum)

 Most of the heart lies left of the
midline, with its apex pointing
downwards

 The base of the heart is the broad
Image University of Michigan Feb 2021
superior end, where the large
vessels attach

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Heart structure

 The heart is enclosed and
protected by the parietal
pericardium (or pericardial sac)
which separates the heart from
other thoracic organs and forms
the wall of the pericardial cavity
which contains pericardial fluid

 The parietal pericardium is
composed of an outer fibrous and
an inner serous layer Image Heart Valve Surgery Website Feb 2021

 The serous layer secretes the
pericardial fluid 5
Heart structure – Heart wall

The wall of the heart is
comprised of three distinct
layers:

 Epicardium outer layer

 Myocardium thick middle
layer comprised of thick
cardiac muscle

Image Oregon State University Feb 2021
 Endocardium smooth inner
layer lining the heart and its
internal structures
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 Heart structure – cardiac muscle

 Exists only in the heart of animals
 Controlled by the autonomic nervous
system
 Fibres are branched and arranged in a
striated pattern
 Cardiac muscle cells are and
connected by intercalated discs
consisting of fascia adherens, gap
junctions and desmosomes
 The regular arrangement and
specialised cell junctions allow the Image Quora Feb 2021

muscle to contract smoothly and
repeatedly

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Heart structure - Chambers
 The heart is divided into four chambers
the upper right and left atria and the
lower right and left ventricles

 The atria are receiving chambers which
contract and empty into the ventricles.
They are separated by a thin muscular
interatrial septum

 The ventricles are pumping chambers are
are separated by a thick muscular
interventricular septum

 Grooved depressions on the surface of the
heart indicate the partitions between the
chambers and also contain cardiac
vessels that supply blood to the heart wall
Image Heart Foundation 8
Feb 2021
Heart structure – right atrium and right ventricle
 The right atrium receives venous blood
from the superior vena cava and the
inferior vena cava

 The cardiac cycle consists of a period
of relaxation when the heart fills with
blood (diastole) followed by a period of
contraction (systole)

 During diastole blood passes from the
right atrium to the right ventricle
through the atrioventricular triscuspid
valve

 During systole when the right ventricle
contracts the tricuspid valve closes
preventing backflow of blood into the
Image Society of Thoracic atrium
Surgery Feb 2021

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Question

If the atria fail the
difference is unlikely to
be noticed unless a
person exercises – can
you think why this might
be?

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Heart structure – left atrium and ventricle
After gas exchange in the lungs
oxygenated blood is passed to the left
atrium from the pulmonary veins

During diastole blood passes from the
left atrium to the left ventricle through
the bicuspid mitral valve

During systole when the left ventricle
contracts the mitral valve closes
preventing backflow of blood into the
atrium

The left ventricle has thicker walls
than the right ventricle

Oxygenated blood leaves the left Image Thoughtco Feb 2021
ventricle via the aorta. The aortic
semilunar valve prevents backflow
from the aorta into the left ventricle. 11
Heart sounds

When listening to the heart
with a stethoscope we are
listening to the turbulence
created when the heart valves
close

S1 First heart sound
(‘Lub’)

S2 Second heart sound
(‘Dub’)

Problems with the valves may
be detected by variations in
these sounds known as heart 12
murmurs
Heart structure

Image Google Feb
2021 13
Heart structure – helpful videos

 https://anatomyzone.com/thorax/heart/heart-structure-and-function-
basics/
 https://www.youtube.com/watch?v=jBt5jZSWhMI

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 Terms you should feel comfortable with
diastole superior interventricular septum
vena
epicardium myocardium
cava
atria triscus
aort
mediastinum pid
a
valve
parietal pericardium sternum semilunar valve

pulmonary endocardium
pericardial cavity vein
pericardial fluid
gap junctions systole
mitral valve
interatrial septum

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Heart structure - Test your knowledge
 Ensure you can label the diagram of the structure of the heart
correctly

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The conduction system of the heart

Consists of:
 Sinoatrial node

 Atrioventricular

node
 Bundle of His

 Purkinje fibres

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The conduction system of the heart

 Each heartbeat begins in the heart’s
pacemaker known as the the
sinoatrial or SA node
 The SA node is located in the right
atrium
 During diastole the SA node exhibits a
spontaneous depolarisation called
the pacemaker potential
 The wave of depolarisation spreads
across the atria resulting in atrial
systole then converges at the
atrioventricular or AV node
 The AV node delays the impulses to
allow the atria time to fully empty into
the ventricles
 The Bundle of His conducts impulses
to the Purkinje fibres of the ventricles
resulting in ventricular systole
Image Medic Tests Feb 2021
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 The conduction system of the heart –
Electrocardiogram (ECG)
 An ECG is an important non-invasive test
that provides information about heart
rate and rhythm
 It measures the electrical activity
generated when the heart contracts and
records this as a trace consisting of:
P wave
QRS complex
T wave
 ECG can help detect abnormal heart
Image Cardiovascular
rhythms (arrythmias), an enlarged heart concepts Feb 2021

due to high blood pressure
(hypertension), heart attacks
(myocardial infarction) among other
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conditions
Electrocardiogram (ECG)

Image Gfycat Feb 2021
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The conduction system of the heart – helpful
video
https://www.youtube.com/watch?v=NijiLTONHxg

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BREAK

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The circulatory system
 Also known as the cardiovascular
system

 Circulates blood, transports
nutrients, oxygen and hormones,
removes waste products and
controls homeostasis

 Pulmonary circulation transports
blood from the right ventricle to
lungs and then the left atrium to
the heart

 Systemic circulation composed
of all the remaining vessels of the
Image Research gate
body that are not part of the Feb 2021
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pulmonary system
The circulatory system - Coronary circulation

 The heart has its own circulation
known as the coronary
circulation

 It consists of the right and left
coronary arteries delivering
oxygenated blood to the heart

 From capillaries in the myocardium
blood enters the cardiac veins
into the right atrium

Image Google Feb 2021

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Circulatory system - Foetal circulation

 In utero the pulmonary circulation
is unnecessary because foetal
blood is oxygenated by the
placenta
 The umbilical cord serves as the
connection between foetus and
placenta
 Systemic venous blood returning to
the right atrium is deflected
through the foramen ovale to the
left atrium
 Blood from the left ventricle is
diverted away from the pulmonary
arteries, to the aorta, through the
Image Google Feb 2021
ductus arteriosus 25
Circulatory system – Blood vessels

1. Arteries
2. Arterioles
3. Capillaries
4. Venules
5. Veins

Image Quizlet Feb 2021

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Circulatory system - Arteries

 Carry oxygenated blood (except
pulmonary system) away from
heart
 Thick elastic muscular walls
 Bloodflow under high pressure
 3 layers
Tunica externa
Tunica media
Tunica intima

Image Lumen learning Feb 2021

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Circulatory system - Veins
 Carry oxygen depleted blood back to the heart
 Contain valves to prevent backflow/pooling
 Act as a reservoir of blood
 Rely on the skeletal muscle pump and
respiratory pump
 Also have 3 layered walls but less muscular
and less elastic than arteries

Image Google Feb 2021 28
Circulatory system - Capillaries
 Smallest and most abundant blood  3 types
vessels in body Continuous
 Walls consist of endothelium Fenestrated
only, one cell layer thick Discontinuous (sinudoidal)
 Permit rapid rate of exchange of
oxygen, nutrients and waste
products between blood and tissues
 Capillary beds are networks of
capillaries supplying organs
 Blood flow through capillaries is
determined by precapillary
sphincter muscles and the
constriction or dilatation of
arteries and arterioles

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Circulatory system – Blood-brain barrier

 The blood-brain barrier acts as
a boundary between circulating
blood and the brain and spinal
cord

 It is highly selective and
protects the brain from ‘foreign’
substances and maintains a
constant environment for the brain

 Brain capillaries are not
fenestrated and their endothelial
cells are very tightly packed so
large molecules, immune cells,
bacteria and viruses are prevented
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from passing from the blood to the
Arteries and veins - Test your knowledge

Ensure you can
identify and label
these blood vessels
correctly

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Major blood vessels – the Great vessels
Arteries
 Pulmonary artery

 Aorta

Aortic arch
Ascending and descending
aorta

The pulmonary arteries carry blood
from the right atrium to the lungs for
oxygenation

The aorta originates from left
ventricle as ascending aorta, forms
the aortic arch becoming the
descending aorta as it continues Image David Darling Website Feb 2021

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down through body
Major blood vessels – The Great Vessels
Veins
 Pulmonary vein

 Superior vena cava

 Inferior vena cava

The pulmonary vein returns
oxygenated blood from the lungs
to the left atrium
The supervior vena cava
receives deoxygenated blood
from the upper body and the
inferior vena cava receives the
venous return from the lower Image News medical Feb 2021

body. Both drain into the right
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atrium
Blood pressure

 Blood pressure is the force
exerted by circulating blood
against the artery walls

 Measured in millimetres of
mercury (mmHg)

 Systolic/diastolic e.g
120/80mmHg

Image Diabetes UK website Feb 2021

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Question

 What might cause
blood pressure
variation?

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Circulatory system – helpful videos

 Blood pressure
https://www.youtube.com/watch?v=keYtWNAJY64
 Capillary exchange

https://www.youtube.com/watch?v=dFRa2ECm5pY

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THE END

Further references:
 Waugh, A. and Grant, A. (2018)
Ross & Wilson Anatomy And
Physiology In Health And Illness.
13th ed. Elsevier.

 Ward, J. and Linden, R. (2017)
Physiology At A Glance. 4th ed.
Wiley-Blackwell.

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