2. INTRODUCTION - LUNG
Pair of respiratory organs situated in the thoracic
cavity; separated by mediastinum.
Each lung invaginates the corresponding pleural
cavity.
Spongy in texture, brown or grey in colour. Gradually
they become mottled black due to deposition of
inhaled carbon particles.
The surface is smooth, shining, and marked out into
numerous polyhedral areas, indicating the lobules of
the organ.
3. LUNG - PARTS
Lung is conical in shape, and presents an apex, a
base, three borders, and two surfaces.
The apex is rounded, and extends into the root of
the neck, 2.5 to 4 cm above the level of the sternal
end of first rib. Covered by cervical pleura and supra
pleural membrane.
The base is broad, concave, and rests upon the
diaphragm, which separates the right lung from the
right lobe of the liver, and the left lung from the left
lobe of the liver, stomach, and spleen.
As the diaphragm extends higher on the right than
on the left side, the concavity on the base of the
right lung is deeper than that on the left.
5. LUNG - BORDERS
1. Anterior border- thin, it is vertical
on the right side and shows
cardiac notch on the left side
below 4th costal cartilage.
2. Posterior border - thick and ill
defined.
3. Inferior border - separates the
base from the costal and
mediastinal surfaces.
Mediastinal surface of
right lung
6. LUNG - SURFACE
1. The costal surface is smooth, convex, in
contact with the costal pleura, and presents,
grooves corresponding with the overlying ribs.
2. The mediastinal surface is in contact with the
mediastinal pleura. It presents a deep
concavity, the cardiac impression, which
accommodates the heart; this is larger and
deeper on the left than on the right lung.
7. LUNG - HILUM
Hilum, where the
structures which form the
root of the lung enter and
leave.
Hilar structures include
principal bronchus,
pulmonary artery,
pulmonary veins,
bronchial artery, bronchial
vein, nerves &
lymphatics.
VAB - Anterior to posterior
8. LUNG – LOBES & FISSURE
Right lung is divided into 3 lobes (superior,
middle & inferior) by 2 fissures, oblique &
horizontal.
Left lung is divided into 2 lobes (superior &
inferior) by the oblique fissure.
Left lung has tongue like projection below the
cardiac notch called lingula (corresponds to the
middle lobe of right lung).
10. LUNG - RELATIONS
Right lung – Medial surface
Azygos vein - arched furrow above the hilum.
Superior vena cava & right brachiocephalic vein - a wide groove
below the apex.
Brachiocephalic artery - a furrow near the apex.
Esophagus - vertical groove, behind the hilus.
Inferior vena cava - in front and to the right of the lower part of the
esophageal groove.
Large impression for the right atrium.
12. LUNG - RELATIONS
Left lung- Medial surface
Aortic arch- furrow Immediately above the hilus.
Left subclavian artery- groove in the apex.
Left brachiocephalic vein - impression close to the anterior
border of the lung .
Descending aorta- vertical furrow behind the hilus and
pulmonary ligament.
Esophagus- impression near the base of the lung.
Large impression for left ventricle.
14. DIFFERENCES BETWEEN LEFT AND RIGHT
LUNG
Right Left
Larger,3 lobes & 2 fissures (oblique
& transverse).
2 lobes & 1 fissure (only oblique
fissure).
Hilum shows eparterial & hyparterial
bronchi.
Hilum shows only one principal
bronchus.
Absence of cardiac notch & lingula. Presence of cardiac notch & lingula.
10 bronchopulmonary segments 8 or 9 broncho pulmonary segments.
15. BRONCHI & SUBDIVISION
Trachea divides into two primary bronchi.
The primary bronchi divide into secondary bronchi – 3 on the
right and 2 on the left – supplying lobes.
The secondary bronchi divide to become tertiary bronchi for
bronchopulmonary segments.
Tertiary bronchi divide so on until 23 branching's occur. This
yields the bronchial tree.
Passages with a diameter of <1mm are called bronchioles.
Terminal bronchioles are the last portion of the conducting
zone.
17. BRONCHOPULMONARY SEGMENTS
Definition :
Segment of the lung aerated by a tertiary
bronchus.
10 segments on the right side
8 or 9 segments on the left side.
21. BRONCHOPULMONARY SEGMENTS
Clinical importance:
Usually infection of one segment restricted to that
segment but some infections like tuberculosis
spreads to other segments.
Bronchogenic carcinoma spreads across segments.
Knowledge of broncho pulmonary segments help in
the surgical resection ,drainage of infections by
postural drainage, visualizing the interior by
bronchoscope.
22. LUNG – BLOOD SUPPLY
• Arteries - Left side - 2 bronchial arteries arising from
descending thoracic aorta.
- Right side - 1 bronchial artery arising from posterior
intercostal artery.
• Veins - 2 bronchial veins on both sides.
• Left side drains into left superior intercostal vein or hemiazygos
vein.
• Right side drains into azygos vein.
Lymphatic drainage:
Bronchopulmonary nodes-present in the hilum.
24. PLEURA
Definition: The pleura is a delicate and closed
serous sac into which corresponding lung invaginates
from the medial side and reduces it into a potential
space.
Layers: - Visceral Layer
- Parietal Layer
Both the layers are continuous around the lung root
and pulmonary ligament.
26. PARIETAL PLEURA
The outer layer of the pleura is called parietal
pleura.
Subdivided into 4 parts:
- Cervical
- Costal
- Mediastinal
- Diaphragmatic.
27. CERVICAL PLEURA
Covered externally by the suprapleural membrane
(Sibson’s fascia).
Extends from inner border of 1st rib to cover the apex of
the lung.
Continuous downward and medially with the mediastinal
pleura.
Summit is 3-4 cm above the 1st costal cartilage.
2.5 cm above the sternal end of the clavicle.
28. SUPRAPLEURAL MEMBRANE
Dome shaped musculo-fascial expansion.
Muscular part- scalenus minimus muscle.
Fascial part- endo thoracic fascia.
Attachments:
In front- inner border of the 1st rib
Behind – Tip of the transverse process
of the 7th cervical vertebra.
Medially- Continuous with the
pretracheal fascia by the side of the
trachea.
Protects the apex of the lung and
cervical pleura from the structures
of the root of the neck.
29. COSTAL PLEURA
Lines the inner surface of the
sternum ribs, costal cartilages,
intercostal spaces and the sides
of the vertebral bodies.
Separated from the bony
structures by endothoracic
fascia.
Continuous as mediastinal
pleura medially.
Reflexions: They are 3 in number.
Costo-mediastinal reflexion.
Costo-diaphragmatic
reflexion.
Costo-vertebral reflexion
30. MEDIASTINAL PLEURA
It covers and forms the lateral
boundary of the mediastinum.
Subdivided into 3 parts
- Above the lung root
- At the lung root
- Below the lung root.
Above the lung root the parietal
pleura forms a continuous antero-
posterior sheet extending from the
sternum to the vertebral column and
is related to a number of structures
which are different on two sides.
31. MEDIASTINAL PLEURA - RELATIONS
Right side
Right brachiocephalic vein
Superior vena cava
Arch of Azygos vein
Brachiocephalic trunk
Right phrenic nerve
Right vagus nerve
Trachea
Oesophagus.
Left side
Arch of aorta
Left common carotid artery
Left subclavian artery
left brachiocephalic vein
superior intercostal vein
Left phrenic nerve
Left vagus nerve
Recurrent laryngeal nerve
Oesophagus
Thoracic duct
32. DIAPHRAGMATIC PLEURA
It covers the thoracic part of the
diaphragm.
Medially, it is continuous with the
mediastinal pleura along the
attachment of fibrous
pericardium to the central tendon
of diaphragm.
33. NERVE SUPPLY
• Costal pleura is segmentally supplied by the intercostal nerves.
• Mediastinal pleura is supplied by the phrenic nerve.
• Diaphragmatic pleura is supplied by the phrenic nerve (over the
domes) and lower 6 intercostal nerves (around the periphery).
• Sensitive to pain, temperature, touch and pressure.
• * If there is any pain in pleura involving the
phrenic nerve then the pain may felt in shoulder
joint due to the same nerve root origin
34. BLOOD SUPPLY
Supplied by intercostal, internal thoracic and
musculophrenic arteries.
The vein drains into azygos and internal thoracic
veins.
The lymph drains into intercostal, internal
mammary, posterior mediasternal and
diaphragmatic lymph nodes.
36. NERVE SUPPLY
Receives sympathetic nerves from 2nd to 5th
spinal segments and parasympathetic nerves
from vagus nerve ( pulmonary plexus ).
Sensitive to stretch but insensitive to pain and
touch.
37. BLOOD SUPPLY
Supplied by bronchial arteries.
The veins drain into bronchial veins.
The lymph drain into bronchopulmonary lymph
nodes.
38. PLEURAL CAVITY
The pleural cavity is filled with a small amount of serous fluid
which forms a thin film of liquid between the pleural layers.
The normal amount is 10-15ml.
It prevents separation of the two pleural layers. But facilitates
the sliding of two layers among them.
lubricates the surface, so the lungs can move easily within the
thoracic cavity.
The pleural fluid also provides surface tension, keeping the
lung suitably close to the wall of the thorax, despite the lungs
not being directly fixed to it.
39. COSTODIAPHRAGMATIC RECESS
Cleft like potential space between the lower limit of
pleural sac and lower border of the lung.
Extent:
The lower limit of the pleura along the 8th , 10th and 12th rib in
mid clavicular, mid-axillary and scapular line
Lower border of the lung along the 6th,8th and 10th rib.
40. COSTODIAPHRAGMATIC RECESS
Function: - Allows expansion of lung during full
inspiration.
- Most dependant part so fluid first appear
in
this space.
Relation: Right side – Right lobe and caudate lobe of
the
liver
- Upper part of the posterior
surface
of the right kidney.
Left side – Fundus of the stomach, spleen
- Upper part of posterior surface of
the
left kidney.
41. COSTOMEDIASTINAL RECESS
• Potential space at the border of mediastinal pleura and costal
pleura.
Function: Helps the lungs to expand during deep inspiration
• The lung expands into the costomediastinal recess even
during quiet inspiration.
• The costomediastinal recess is most obvious in the cardiac
notch of the left lung
42. CLINICAL ASPECT - PLEURA
Pleurisy
• Inflammation of the pleura surrounding the lungs.
• Many possible causes of pleurisy but viral infections spreading
from the lungs to pleural cavity are the most common.
• The inflamed pleural layers rub against each other every time the
lungs expand to breathe in air.
• This can cause sharp pain when breathing, also called
pleuritic chest pain
• Thoracentesis is normally performed to obtain sample for testing.
43. CLINICAL ASPECT - PLEURA
Plueral Effusion
• Excess collection of fluid in the pleural cavity .
• Any condition that increases the production of the fluid or
impairs the drainage of the fluid results in the abnormal
accumulation of fluid (more than 300ml).
• Normal amount of pleural fluid is 10-15ml.
• If the accumulated fluid is blood then it is named as
haemothorax.
• If the pleural cavity is filled with pus, it is known as pyothorax.
• Leakage of lymph into the pleural cavity is known as
chylothorax. Results of surgical trauma during mediastinal
processes.
45. CLINICAL ASPECT - PLEURA
Pneumothorax
Collection of free air or gas in the pleural cavity.
Types of pneumothorax:
- Open pneumothorax
- Spontaneous pneumothorax
- Tension pneumothorax
Collapse of ipsilateral lung due to pressure change & disruption
of surface tension.
Potential for mediastinal shifts.