Lungs, Pleura Lecture Notes PDF

Summary

This document contains lecture notes on the lungs and pleura, covering topics including anatomy, structure, functions, and related areas. The notes are structured in a way common to medical lectures at an undergraduate level.

Full Transcript

Anatomy – MED 201
 Basics
❖Definition: A body cavity containing major parts of cardiovascular
and respiratory system

❖Functions
❖Protects heart, lungs and major vessels
❖Breathing
❖Conduit for esophagus
❖Communication with neck, abdomen

❖Contents
❖Pleural cavities (Lungs)
❖Mediastinum (Heart, esophagus)
 Thoracic inlet
Communication with neck, arms

Contents
Trachea
1st rib T1 Esophagus
Great vessels

Sternum 1st rib
 Thoracic outlet
Communication with abdomen

Inferior
ribs

T10-12
Contents
Esophagus
Great vessels
Thoracic wall
 General overview
Shape of thoracic cavity

✓ Osteocartilagenous
conical cage

✓ Inlet– narrow

✓ Outlet– wide
 General overview
2 pleural cavities, one mediastinal
 Lungs

❖Separated by mediastinum
❖Right lung larger than left
❖ each lung – enclosed by double layer pleural membrane
❖ Parietal pleura – lines wall of thoracic cavity
❖ Visceral pleura – covers lungs
 Lungs

❖ Cone shaped
❖ Apex
❖ Base
❖ 3 borders
❖ Inferior
❖ Anterior
❖ Posterior
❖ 2 surfaces
❖ Costal
❖ Mediastinum
 Lungs

Apex

Hilum

Base
 Lungs

Apex
❖ Extends 1-2 cm past clavicles
❖ Projects into root o
Base
❖ Sits on diaphragm
❖ Right
❖ Right lobe of liver
❖ Left
❖ Left lobe of liver
❖ Stomach
❖ Spleen
f neck
 Lung surfaces

❖ Costal Surface
❖ Mediastinal Surface
 Lung surfaces

Costal surface
❖ Immediately adjacent to ribs
❖ In contact with thoracic wall
❖ Smooth, few distinctive
markings costal pleura
 Lung surfaces

Mediastinal surface
❖ Lies adjacent to
mediastinum
❖ Contains hilum
❖ Imprints of various
anatomic elements in
contact
 Lung Borders

Inferior border
❖ Sharp
❖ Separates the base from the
costal surface
Anterior border
❖ Separates costal surface from
medial surface
❖ Sharp
Posterior border
❖ Separates costal surface from
medial surface
❖ Smooth & rounded
 Lung Roots

❖ Short tubular collection
of structures
❖ In mediastinum
❖ Covered by mediastinal
pleura
❖ Pleura reflects onto
surface of lung (visceral
pleura)
❖ Region outline = hilum
 Lung Hilum

❖ Opening on medial
surface of lungs
❖ Contains
❖ Main bronchus
❖ 2 pulmonary veins
❖ 1 pulmonary artery
❖ Lymphatics
❖ Nerves
 Lung fissures & lobes

Right Lung
❖ 2 fissures
❖ Oblique
❖ Horizontal
❖ 3 lobes
❖ Upper
❖ Middle
❖ Lower
Left Lung
❖ 1 Fissure
❖ Oblique
❖ 2 lobes
❖ Upper
❖ Lower
Lingula
Lung hilums
Lung surfaces
Right lung
Lung surfaces
Left lung
Bronchial tree
 Lobar bronchi

❖ Main bronchus divides in lung to give off 2ndary (lobar) bronchi
(lobes)
❖ Divide further into segmental bronchi (bronchopulmonary segments)
❖ Segmental bronchi give off multiple generations – to bronchioles
 Bronchopulmonary segments

Segment
❖ area of lung having a separate
bronchus & pulmonary a.
❖ Smallest, functionally
independent region that can be 10
resected
❖ segments / lung
❖ Pulmonary vein tributaries pass
between segmentally
❖ Each segment shaped like
irregular cone with apex at origin
of bronchus & base on surface
 circulation
Pulmonary
Pulmonary Pulmonary
artery vein

Venous Arterial
circulation
(Superior & Inferior
vascularization

circulation
(Aorta)

Somatic
vena cava)

Capillary bed
 Lung vascularization

Each lung has
❖ 1 Pulmonary artery
(deoxygenated blood)
❖ 2 pulmonary veins
(oxygenated blood)
 Lymphatic drainage

Superficial lymphatic plexus

Deep lymphatic plexus
 Superficial lymphatic drainage

❖ Subpleural plexus
❖Lies deep to visceral
pleura
❖ Drains
❖Lung parenchyma (tissue)
❖ Visceral pleura
❖ Lymphatic vessels drain into
bronchopulmonary lymph
nodes in hilum
(hilar lymph nodes)
 Deep lymphatic drainage

❖ Lies in submucosa of bronchi
& in peribronchial tissue
❖ Drains
❖ Structures of root of lung
❖ Lymphatic vessels drain into
❖ Intrinsic pulmonary lymph
nodes (along lobar
bronchi)
 Lymphatic drainage

Lymph from lobes of lungs drains into
pulmonary & bronchopulmonary
(hilar) nodes

Then tracheobronchial (carinal) nodes

Paratracheal nodes

Right lymphatic duct (right lung)
Thoracic duct (left lung)
Innervation of the lung

❖ Pulmonary plexus follows trachea & bronchial tree
❖Anterior pulmonary plexus (Anterior to root of lung)
❖Posterior pulmonary plexus (Posterior to root of lung)
 Lungs innervation
Parasympathetic
X

Pulmonary plexus

T1 Sympathetic
T2
T3 Cervical g.
T4 Sympathetic trunk.
Lungs surface anatomy
 Right lung
Horizontal fissure

❖ ~ T4 spinous process
❖ 5th intercostal space (midclavicular ln)
❖ follows 4th intercostal space
 Right lung
Oblique fissure

❖ ~ T4 spinous process
❖ 5th intercostal space (midclavicular ln)
❖ follows contour of rib VI rib 6
 Left lung
Oblique fissure
❖ ~T3 - T4 spinous process
❖ 5th intercostal space,
❖ follows contour of rib VI
Lung auscultation

Orientation of fissures determines where to listen for lung
sounds from each lobe

Stethoscope is positioned on thoracic wall related to
underlying position of lobe
 Right lung auscultation

Where to listen for
lung sounds:

Upper lobe
Middle lobe
Lower lobe
 Left lung auscultation

Where to listen for
lung sounds:

Upper lobe
Lower lobe
 Pleura (pleural
membranes)

[on the surface of the
❖ Serous membranes

Visceral Pleura
lung itself]
❖ Line internal surface of
rib
thoracic cage (parietal pleura)
& outside surface of lungs
(visceral pleura) Parietal
❖ Pleurae secret fluid – Pleura

decreases resistance against
lung movement during
breathing
 the potential space situated between
Pleural space = parietal & visceral pleura

Outer layer
(Parietal pleura)

Each pleural space
contains a minimal
Pleural Space
amount of pleural
fluid

Inner layer
(Viscerall pleura)
 Pleura
Each pleural sac is composed of 2 layers of serous (secretory)
membrane (=pleura)

Parietal pleura
❖ external serous membrane
❖ Lines internal surface (wall)
of thoracic cavity

Visceral pleura
❖ Internal serous membrane
❖ Intimately attached to lung
surface
 Pleura

Visceral pleura

Parietal pleura
 Visceral pleura
❖Completely covers the lung ❖enters fissures to cover lobes
❖ smooth surface & freely ❖ is continuous with parietal
mobile pleura at the root
 Parietal pleura

Mediastinal parietal pleura
❖ Lines lateral surface of
mediastinum
Costal parietal pleura
❖ Lines inner surface of ribs
Diaphragmatic parietal pleura
❖ Lines superior surface of
diaphragm
Cervical parietal pleura
(cupula)
❖ Extends above rib 1 to root of
neck
Pleural reflection
 Pleural recesses

❖ Lungs do not completely
fill the anterior or
posterior inferior regions
of the cavities → recesses

❖ Expansion of lungs into
these spaces occurs only
during forced inspiration

❖ spaces also provide
potential space for fluid
build up
 Pleural recesses
Costomediastinal recess

❖ Anterior
❖ Occurs on each side
❖ Where costal pleura is
opposed to mediastinal pleura
❖ Largest is on the left side
over heart
 Pleural recesses
Costodiaphragmatic recess

❖ Inferior
❖ Occurs on each side
❖ Where costal pleura is
opposed to diaphragmatic
pleura
❖ Largest is on the left side
over heart
 Pleura vascularization

Parietal pleura
❖ internal thoracic
❖ superior phrenic
❖ Posterior intercostal
❖ Superior intercostal
arteries
Bronchial arteries
❖ Bronchial arteries
 Pleura innervation

Intercostal nerves
❖ Costal parietal pleura
❖ Peripheral portion of
diaphragmatic parietal pleura
Phrenic nerves
❖ Central portion of diaphragmatic
parietal pleura
❖ Mediastinal parietal pleura

General sensory neurons
Sensitive to Pain !
Pleura fluid accumulation
Questions?