Applied Cardiac Anatomy (1).pdf

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Anatomy & physiology PHAS5001

Applied Anatomy
Cardiovascular system
Heart

Prof S Ghosh
 Learning outcomes

Describe the location of the heart within the mediastinum
as well as its surface anatomical markings
Relate the structure of the heart (its chambers and valves)
to its function as a double pump
Name the main great vessels
Describe the pulmonary circulation and be familiar with
the areas of myocardium that this supplies
Describe the vasculature related to ECG placement leads
 Anatomical location of the heart

Roughly the same size of your closed fist:
12cm long, 9 cm wide, 6 cm thick and mass 250g

It lies in the mediastinum (from the sternum to
the vertebral column, the first rib and between
the lungs)

2/3 of the mass lies to the left of the midline
Anteriorly: body of the sternum and the 3rd-6th
costal cartilages
Image result for mediastinum

Upper limit: 3rd costal
cartilage right sternal edge
and 2nd intercostal space
at left sternal edge

Right margin: from the
right 3rd costal cartilage to
near the right 6th costal
cartilage
Inferior margin: sternal end of the right 6th
costal cartilage to the apex

Apex: mid clavicular Image result for mediastinum

line, 5th intercostal
space

Left margin: from the
2nd intercostal space
to the apex
 Heart surface anatomical marks

Anterior (Sternocostal) surface: right atrium
and right ventricle

Inferior (Diaphragmatic) surface: the right
and left ventricles

Posterior surface: mainly the left atrium
3 borders → Pyramidal shape
Inferior border
Right ventricle
Left border
Left ventricle + some left atrium
Right border
Right atrium

The apex tip of the left ventricle and rests on the
diaphragm
The base is formed by the atria
Copyright 2009, John Wiley & Sons, Inc.
 Anatomical structure of the heart

Pericardium

- It is the membrane surrounding the heart

- It keeps the heart in place while giving enough
space for vigorous contractions
It consists of 2 parts:
1) Fibrous part: tough and inelastic connective
tissue, fusing to the connective tissue of heart/
blood vessels
→ anchor heart to the mediastinum, prevents
overstretching

2) Serous part: thinner layer, double layer

The outer parietal layer fused to the fibrous part, the
inner visceral layer EPICARDIUM
Pericardium and Heart Wall

Copyright 2009, John Wiley & Sons, Inc.
Pericardial fluid

- Between the 2 layers of serous pericardium
- A lubricating fluid circa 30mls→ reduces friction
between layers as the heart moves

Pericarditis

Inflammation of the pericardium
Various aetiology factors eg. Viral, bacterial; radiation
Chest pain extending to the left shoulder and down to the left arm
Often mistaken for a heart attack , ST elevation across all leads
Pericardial friction rub = heard in 40% of patients; creaking sound heard through a stethoscope
 Muscular structures
Epicardium (external layer)
- Visceral layer of serous pericardium
- Contains adipose tissue
- Contains blood vessels supplying the myocardium
Myocardium
Cardiac striated muscle tissue, responsible for the
contraction of the heart

Endocardium (inner layer)
- Endothelium over connective tissue
- Smooth lining for the chambers and valves
Image result for pericardium
 Chambers of the heart
The heart has four chambers:
- 2 superior called atria (auricles increase capacity)
- 2 inferior called ventricles

Sulci: grooves on the surface

Coronary sulcus: encircles most of the heart and
divides the atria from the ventricles
Anterior and posterior interventricular sulci divide
the 2 ventricles
 Right atrium Image result for atrium anatomy

Anterior wall is rough = Pectinate
muscles muscular ridges

Interatrial septum a thin wall
separates the right and left atrium

It receives blood from
-inferior vena cava Fossa ovalis
-superior vena cava (foramen ovale)
-coronary sinus

Blood from the right atrium passes into the ventricle
through the tricuspid valve (3 cusps)
 Right ventricle
Image result for papillary muscles

Trabeculae carneae
Raised bundles of cardiac Chordae
tendinea
muscle fibres ePapillary
muscles
Chordae tendineae Trabecul
ae
Tendons connected to the carneae

leaflets of the tricuspid valve

Papillary muscles
Connected to chordae tendineae
Interventricular septum divides the 2 ventricles
Blood exits the heart through the pulmonary valve into
the pulmonary trunk
 Left atrium
It receives blood from the 4 pulmonary veins
Image result for pulmonary veins

Blood passes from the atrium to the ventricle through
the bicuspid (mitral) valve (2 cusps)
 Left ventricle
Image result for aortic valve

As the right side it has
- trabeculae carneae
- chordae tendinae that anchor
the cusps of the mitral valve
to papillary muscles
Blood leaves the ventricle via the
aortic valve into the ascending
aorta

coronary arteries descending aorta
 Myocardial thickness
The thickness of the myocardium of the 4 chambers
varies according to their functions:

Atria 2-3 mm of thickness → do not need much pressure
to deliver blood to the ventricles

Ventricles thicker → need to pump further with higher
pressure Image result for right ventricle

Right ventricle 4-5 mm short distance
(lungs)

Left ventricle 10-15 mm great
distances (body)
 Fibrous skeleton
Dense connective tissue that forms a structural foundation,
point of insertion for muscle bundles, and electrical
insulator between atria and ventricles

Copyright 2009, John Wiley & Sons, Inc.
 Valves of the heart
Image result for valves heart anatomy

Atrioventricular
valves
(Tricuspid and mitral)
Blood into atrium = high
pressure = contraction
→ AV valve opens the cusps
project into the ventricle

Ventricle is relaxed the chordae tendineae are slack and
the blood goes from the atrium to low pressure ventricle
Ventricle contracts → pressure pulls the cusps
upward → they close
Image result for valves heart anatomy

Papillary muscles contract pulling the chordae tendineae
so the cusps cannot open into the atrium
→ blood does not flow back
Copyright 2009, John Wiley & Sons, Inc.
 Image result for valves heart anatomy

Semilunar valves
(Aortic and pulmonary)
Ventricles contract = pressure
higher than arteries →
semilunar valve opens cusps
project into the artery lumen
The three crescent moon-shaped cusps allow blood to
leave the ventricle but they stop a backflow
Ventricle relaxes blood starts to flow back filling the
cusps which close tightly
No valves between veins and atria because blood backflow is
reduced the muscles compressing
 Main great vessels
Five great vessels enter and leave the heart:
The superior vena cava and inferior vena cava
return deoxygenated blood from the body to the right
atrium
The pulmonary artery carries deoxygenated blood
from the right ventricle into the lungs for oxygenation
The pulmonary veins carry oxygenated blood from
the lungs into the left atrium
The aorta carries oxygenated blood from the left ventricle
into systemic circulation.
It has many subdivisions: the ascending and descending
aorta, the aortic arch, and the thoracic and abdominal aorta
 Coronary circulation
Coronary arteries

Left coronary artery passes near the left auricle
and divides into after Left coronary ostia:
Related image

Left Anterior Descending
(LAD): supplies blood to both
ventricles – Diagonal and
Septal branches
Circumflex branch (Cx): supplies
blood to the left ventricle (MV valve)
and left atrium – divides in Obtuse
Marginal branches – usually 2
Right coronary artery supplies small
branches to the right atrium and then
divides in:
Related image

Posterior descending artery
(PDA): supplies blood to the
posterior ventricles and
inferior surface

Right ventricular branch:
supplies blood to the right
ventricle anterior surface
Coronary veins
All the main veins drains into the coronary sinus (posterior
face) which empties into the right atrium

Principals veins are and they all drain into R atrium:
Coronary Sinus: drains left and right ventricle and
left atrium
Middle cardiac vein: drains left and right ventricles

Small cardiac vein: drains right atrium and right ventricle

Anterior cardiac veins: drain right ventricle and open
into the right atrium
Image result for coronary veins